Methods of diagnosis of bladder cancer, compositions and methods of screening for modulators of bladder cancer

ABSTRACT

Described herein are genes whose expression are up-regulated or down-regulated in bladder cancer. Also described are such genes whose expression is further up-regulated or down-regulated in drug-resistant bladder cancer cells. Related methods and compositions that can be used for diagnosis, prognosis, or treatment of bladder cancer are disclosed. Also described herein are methods that can be used to identify modulators of bladder cancer.

CROSS-REFERENCES TO RELATED APPLICATIONS

[0001] This application is related to U.S. S No. 60/302,814, filed Jul. 3, 2001; U.S. S No. 60/310,099, filed Aug. 3, 2001; U.S. S No. 60/343,705, filed Nov. 8, 2001; U.S. S No. 60/350,666, filed Nov. 13, 2001; and U.S. S No. 60/372,246, filed Apr. 12, 2001, each of which is incorporated herein by reference.

FIELD OF THE INVENTION

[0002] The invention relates to the identification of nucleic acid and protein expression profiles and nucleic acids, products, and antibodies thereto that are involved in bladder cancer; and to the use of such expression profiles and compositions in the diagnosis, prognosis, and therapy of bladder cancer. The invention further relates to methods for identifying and using agents and/or targets that inhibit bladder cancer.

BACKGROUND OF THE INVENTION

[0003] In the United States, over 50,000 new cases of bladder cancer are diagnosed annually, and more than 10,000 deaths will be attributed to bladder cancer. Bladder cancer is now the fourth most common cancer among American men and the ninth most common cancer among American women. It occurs three times more frequently in men than in women, and it occurs roughly twice more frequently in white versus black men.

[0004] Bladder cancer rarely occurs in people younger than 40 years of age, being primarily a disease of older men. Nonetheless, bladder cancer is a significant cause of illness and death in the United States. The risk of bladder cancer increases steeply with age, with over half of all bladder cancer deaths occurring after age 70. In white men older than 65, the annual disease rate of bladder cancer is approximately 2 cases per 1,000 persons; this contrasts with a rate of 0.1 cases per 1,000 persons younger than 65.

[0005] Within the United States, bladder cancer rates are higher among people who reside in northern versus southern states, and is higher for people who live in urban versus rural areas. Although this difference suggests that environmental as well as genetic factors may contribute to the development and progression of the disease, other studies confirm that certain genes play a role in bladder cancer. For example, expression of the tumor suppressor gene p53 has been associated with an adverse prognosis for patients with invasive bladder cancer. A retrospective study of 243 patients treated by radical cystectomy found that the presence of nuclear p53 was an independent predictor for recurrence among patients with mid to late stage tumors. Esrig, et al (1994) N.E. J. Med. 331:1259-64.

[0006] Urinary bladder cancers represent a spectrum of diseases that can be grouped into three general categories: superficial, invasive, and metastatic. The prognosis for treatment is highly dependent on the stage at which the tumor is first diagnosed. A unique aspect of bladder cancer treatment is that repeated surgical biopsy is an integral part of routine patient management. This has permitted the conduct of molecular genetic studies of tumors from specific stages of the disease. The results of these studies suggest that bladder cancers develop and progress along at least two discrete pathways, which may account for differences in invasiveness and metastatic potential. Incorporating molecular genetic factors into the current paradigm for diagnosis and treatment will optimize the probability of cure and allow the quality of life for bladder cancer patients to be maintained.

[0007] Early detection and treatment can prevent reoccurrence and progression of the disease to an incurable stage. Thus, the identification of novel diagnostic markers and therapeutic targets will improve the current treatment of bladder cancer patients. While industry and academia have identified novel sequences, there has not been an equal effort exerted to identify the function of these novel sequences in disease states. The elucidation of a role for novel proteins and compounds in disease states for identification of diagnostic markers and therapeutic targets is essential for improving the current treatment of bladder cancer patients. Accordingly, provided herein are methods that can be used in diagnosis and prognosis of bladder cancer. Additionally, provided herein are molecular targets for therapeutic intervention in bladder cancer and other related bladder diseases. Further provided are methods that can be used to screen candidate bioactive agents for the ability to modulate bladder cancer.

SUMMARY OF THE INVENTION

[0008] The present invention therefore provides nucleotide sequences of genes that are up- and down-regulated in bladder cancer cells. Such genes are useful for diagnostic purposes, and also as targets for screening for therapeutic compounds that modulate bladder cancer, such as hormones or antibodies. Other aspects of the invention will become apparent to the skilled artisan by the following description of the invention.

[0009] In one aspect, the present invention provides a method of detecting a bladder cancer-associated transcript in a cell from a patient, the method comprising contacting a biological sample from the patient with a polynucleotide that selectively hybridizes to a sequence at least 80% identical to a sequence as shown in Tables 1A-13.

[0010] In one embodiment, the present invention provides a method of determining the level of a bladder cancer associated transcript in a cell from a patient.

[0011] In one embodiment, the present invention provides a method of detecting a bladder cancer-associated transcript in a cell from a patient, the method comprising contacting a biological sample from the patient with a polynucleotide that selectively hybridizes to a sequence at least 80% identical to a sequence as shown in Tables 1A-13.

[0012] In one embodiment, the polynucleotide selectively hybridizes to a sequence at least 95% identical to a sequence as shown in Tables 1A-13.

[0013] In one embodiment, the biological sample is a tissue sample. In another embodiment, the biological sample comprises isolated nucleic acids, e.g., mRNA.

[0014] In one embodiment, the polynucleotide is labeled, e.g., with a fluorescent label.

[0015] In one embodiment, the polynucleotide is immobilized on a solid surface.

[0016] In one embodiment, the patient is undergoing a therapeutic regimen to treat bladder cancer. In another embodiment, the patient is suspected of having metastatic bladder cancer.

[0017] In one embodiment, the patient is a human.

[0018] In one embodiment, the bladder cancer associated transcript is mRNA.

[0019] In one embodiment, the method further comprises the step of amplifying nucleic acids before the step of contacting the biological sample with the polynucleotide.

[0020] In another aspect, the present invention provides a method of monitoring the efficacy of a therapeutic treatment of bladder cancer, the method comprising the steps of: (i) providing a biological sample from a patient undergoing the therapeutic treatment; and (ii) determining the level of a bladder cancer-associated transcript in the biological sample by contacting the biological sample with a polynucleotide that selectively hybridizes to a sequence at least 80% identical to a sequence as shown in Tables 1A-13, thereby monitoring the efficacy of the therapy. In a further embodiment, the patient has metastatic bladder cancer. In a further embodiment, the patient has a drug resistant form of bladder cancer.

[0021] In one embodiment, the method further comprises the step of: (iii) comparing the level of the bladder cancer-associated transcript to a level of the bladder cancer-associated transcript in a biological sample from the patient prior to, or earlier in, the therapeutic treatment.

[0022] Additionally, provided herein is a method of evaluating the effect of a candidate bladder cancer drug comprising administering the drug to a patient and removing a cell sample from the patient. The expression profile of the cell is then determined. This method may further comprise comparing the expression profile to an expression profile of a healthy individual. In a preferred embodiment, said expression profile includes a gene of Tables 1A-13.

[0023] In one aspect, the present invention provides an isolated nucleic acid molecule consisting of a polynucleotide sequence as shown in Tables 1A-13.

[0024] In one embodiment, an expression vector or cell comprises the isolated nucleic acid.

[0025] In one aspect, the present invention provides an isolated polypeptide which is encoded by a nucleic acid molecule having polynucleotide sequence as shown in Tables 1A-13.

[0026] In another aspect, the present invention provides an antibody that specifically binds to an isolated polypeptide which is encoded by a nucleic acid molecule having polynucleotide sequence as shown in Tables 1A-13.

[0027] In one embodiment, the antibody is conjugated to an effector component, e.g., a fluorescent label, a radioisotope or a cytotoxic chemical.

[0028] In one embodiment, the antibody is an antibody fragment. In another embodiment, the antibody is humanized.

[0029] In one aspect, the present invention provides a method of detecting a bladder cancer cell in a biological sample from a patient, the method comprising contacting the biological sample with an antibody as described herein.

[0030] In another aspect, the present invention provides a method of detecting antibodies specific to bladder cancer in a patient, the method comprising contacting a biological sample from the patient with a polypeptide encoded by a nucleic acid comprising a sequence from Tables 1A-13.

[0031] In another aspect, the present invention provides a method for identifying a compound that modulates a bladder cancer-associated polypeptide, the method comprising the steps of: (i) contacting the compound with a bladder cancer-associated polypeptide, the polypeptide encoded by a polynucleotide that selectively hybridizes to a sequence at least 80% identical to a sequence as shown in Tables 1A-13; and (ii) determining the functional effect of the compound upon the polypeptide.

[0032] In one embodiment, the functional effect is a physical effect, an enzymatic effect, or a chemical effect.

[0033] In one embodiment, the polypeptide is expressed in a eukaryotic host cell or cell membrane. In another embodiment, the polypeptide is recombinant.

[0034] In one embodiment, the functional effect is determined by measuring ligand binding to the polypeptide.

[0035] In another aspect, the present invention provides a method of inhibiting proliferation of a bladder cancer-associated cell to treat bladder cancer in a patient, the method comprising the step of administering to the subject a therapeutically effective amount of a compound identified as described herein.

[0036] In one embodiment, the compound is an antibody.

[0037] In another aspect, the present invention provides a drug screening assay comprising the steps of: (i) administering a test compound to a mammal having bladder cancer or to a cell sample isolated therefrom; (ii) comparing the level of gene expression of a polynucleotide that selectively hybridizes to a sequence at least 80% identical to a sequence as shown in Tables 1A-13 in a treated cell or mammal with the level of gene expression of the polynucleotide in a control cell sample or mammal, wherein a test compound that modulates the level of expression of the polynucleotide is a candidate for the treatment of bladder cancer.

[0038] In one embodiment, the control is a mammal with bladder cancer or a cell sample therefrom that has not been treated with the test compound. In another embodiment, the control is a normal cell or mammal.

[0039] In one embodiment, the test compound is administered in varying amounts or concentrations. In another embodiment, the test compound is administered for varying time periods. In another embodiment, the comparison can occur after addition or removal of the drug candidate.

[0040] In one embodiment, the levels of a plurality of polynucleotides that selectively hybridize to a sequence at least 80% identical to a sequence as shown in Tables 1A-13 are individually compared to their respective levels in a control cell sample or mammal. In a preferred embodiment the plurality of polynucleotides is from three to ten.

[0041] In another aspect, the present invention provides a method for treating a mammal having bladder cancer comprising administering a compound identified by the assay described herein.

[0042] In another aspect, the present invention provides a pharmaceutical composition for treating a mammal having bladder cancer, the composition comprising a compound identified by the assay described herein and a physiologically acceptable excipient.

[0043] In one aspect, the present invention provides a method of screening drug candidates by providing a cell expressing a gene that is up- and down-regulated as in a bladder cancer. In one embodiment, a gene is selected from Tables 1A-13. The method further includes adding a drug candidate to the cell and determining the effect of the drug candidate on the expression of the expression profile gene.

[0044] In one embodiment, the method of screening drug candidates includes comparing the level of expression in the absence of the drug candidate to the level of expression in the presence of the drug candidate, wherein the concentration of the drug candidate can vary when present, and wherein the comparison can occur after addition or removal of the drug candidate. In a preferred embodiment, the cell expresses at least two expression profile genes. The profile genes may show an increase or decrease.

[0045] Also provided is a method of evaluating the effect of a candidate bladder cancer drug comprising administering the drug to a transgenic animal expressing or over-expressing the bladder cancer modulatory protein, or an animal lacking the bladder cancer modulatory protein, for example as a result of a gene knockout.

[0046] Moreover, provided herein is a biochip comprising one or more nucleic acid segments of Tables 1A-13, wherein the biochip comprises fewer than 1000 nucleic acid probes. Preferably, at least two nucleic acid segments are included. More preferably, at least three nucleic acid segments are included.

[0047] Furthermore, a method of diagnosing a disorder associated with bladder cancer is provided. The method comprises determining the expression of a gene of Tables 1A-13 in a first tissue type of a first individual, and comparing the distribution to the expression of the gene from a second normal tissue type from the first individual or a second unaffected individual. A difference in the expression indicates that the first individual has a disorder associated with bladder cancer.

[0048] In a further embodiment, the biochip also includes a polynucleotide sequence of a gene that is not up- and down-regulated in bladder cancer.

[0049] In one embodiment a method for screening for a bioactive agent capable of interfering with the binding of a bladder cancer modulating protein (bladder cancer modulatory protein) or a fragment thereof and an antibody which binds to said bladder cancer modulatory protein or fragment thereof. In a preferred embodiment, the method comprises combining a bladder cancer modulatory protein or fragment thereof, a candidate bioactive agent and an antibody which binds to said bladder cancer modulatory protein or fragment thereof. The method further includes determining the binding of said bladder cancer modulatory protein or fragment thereof and said antibody. Wherein there is a change in binding, an agent is identified as an interfering agent. The interfering agent can be an agonist or an antagonist. Preferably, the agent inhibits bladder cancer.

[0050] Also provided herein are methods of eliciting an immune response in an individual. In one embodiment a method provided herein comprises administering to an individual a composition comprising a bladder cancer modulating protein, or a fragment thereof. In another embodiment, the protein is encoded by a nucleic acid selected from those of Tables 1A-13.

[0051] Further provided herein are compositions capable of eliciting an immune response in an individual. In one embodiment, a composition provided herein comprises a bladder cancer modulating protein, preferably encoded by a nucleic acid of Tables 1A-13 or a fragment thereof, and a pharmaceutically acceptable carrier. In another embodiment, said composition comprises a nucleic acid comprising a sequence encoding a bladder cancer modulating protein, preferably selected from the nucleic acids of Tables 1A-13, and a pharmaceutically acceptable carrier.

[0052] Also provided are methods of neutralizing the effect of a bladder cancer protein, or a fragment thereof, comprising contacting an agent specific for said protein with said protein in an amount sufficient to effect neutralization. In another embodiment, the protein is encoded by a nucleic acid selected from those of Tables 1A-13.

[0053] In another aspect of the invention, a method of treating an individual for bladder cancer is provided. In one embodiment, the method comprises administering to said individual an inhibitor of a bladder cancer modulating protein. In another embodiment, the method comprises administering to a patient having bladder cancer an antibody to a bladder cancer modulating protein conjugated to a therapeutic moiety. Such a therapeutic moiety can be a cytotoxic agent or a radioisotope.

DETAILED DESCRIPTION OF THE INVENTION

[0054] In accordance with the objects outlined above, the present invention provides novel methods for diagnosis and prognosis evaluation for bladder disease (BD), e.g., cancer, including metastatic bladder cancer, as well as methods for screening for compositions which modulate bladder diseases. Also provided are methods and compositions for treating bladder disease. Various related conditions where these markers may be useful also, include, e.g., carcinoma in situ, various stages of papillary carcinomas; and such conditions in different stages, layers, structural portions, etc.

[0055] Recent advances in molecular medicine, generally, have increased the interest in tumor-specific cell surface antigens that could serve as diagnostic or prognostic markers, or as targets for various immunotherapeutic or small molecule strategies. Antigens suitable for immunotherapeutic strategies should be highly expressed in cancer tissues and ideally not expressed in other, e.g., normal, adult tissues. Expression in tissues that are dispensable for life, however, may be tolerated, as a physiological consequence of such expression would be limited. Examples of such antigens in cancers other than bladder cancer include Her2/neu and the B-cell antigen CD20. Humanized monclonal antibodies directed to Her2/neu (Herceptin®/trastuzumab) are currently in use for the treatment of metastatic breast cancer. Ross and Fletcher (1998) Stem Cells 16:413-428. Similarly, anti-CD20 monoclonal antibodies (Rituxin®/rituximab) are used to effectively treat non-Hodgkin's lymphoma. Maloney, et al. (1997) Blood 90:2188-2195; and Leget and Czuczman (1998) Curr. Opin. Oncol. 10:548-551.

[0056] Definitions

[0057] The term “bladder cancer protein” or “bladder cancer polynucleotide” or “bladder cancer-associated transcript” refers to nucleic acid and polypeptide polymorphic variants, alleles, mutants, and interspecies homologues that: (1) have a nucleotide sequence that has greater than about 60% nucleotide sequence identity, 65%, 70%, 75%, 80%, 85%, 90%, preferably 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% or greater nucleotide sequence identity, preferably over a region of over a region of at least about 25, 50, 100, 200, 500, 1000, or more nucleotides, to a nucleotide sequence of or associated with a gene of Tables 1A-13; (2) bind to antibodies, e.g., polyclonal antibodies, raised against an immunogen comprising an amino acid sequence encoded by a nucleotide sequence of or associated with a gene of Tables 1A-13, and conservatively modified variants thereof; (3) specifically hybridize under stringent hybridization conditions to a nucleic acid sequence, or the complement thereof of Tables 1A-13 and conservatively modified variants thereof; or (4) have an amino acid sequence that has greater than about 60% amino acid sequence identity, 65%, 70%, 75%, 80%, 85%, 90%, preferably 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98% or 99% or greater amino sequence identity, preferably over a region of over a region of at least about 25, 50, 100, 200, 500, 1000, or more amino acid, to an amino acid sequence encoded by a nucleotide sequence of or associated with a gene of Tables 1A-13. A polynucleotide or polypeptide sequence is typically from a mammal including, but not limited to, primate, e.g., human; rodent, e.g., rat, mouse, hamster; cow, pig, horse, sheep, or other mammal. A “bladder cancer polypeptide” and a “bladder cancer polynucleotide,” include both naturally occurring or recombinant forms.

[0058] A “full length” bladder cancer protein or nucleic acid refers to a bladder cancer polypeptide or polynucleotide sequence, or a variant thereof, that contains all of the elements normally contained in one or more naturally occurring, wild type bladder cancer polynucleotide or polypeptide sequences. The “full length” may be prior to, or after, various stages of splicing, including alternative splicing, or post-translation processing.

[0059] “Biological sample” as used herein is a sample of biological tissue or fluid, e.g., that contains nucleic acids or polypeptides of a bladder cancer protein, polynucleotide, or transcript. Such samples include, but are not limited to, tissue isolated from primates, e.g., humans, or rodents, e.g., mice and rats. Biological samples may also include sections of tissues such as biopsy and autopsy samples, frozen sections taken for histologic purposes, blood, plasma, serum, sputum, stool, urine, tears, mucus, hair, skin, etc. Biological samples also include explants and primary and/or transformed cell cultures derived from patient tissues. A biological sample is typically obtained from a eukaryotic organism, most preferably a mammal such as a primate, e.g., chimpanzee or human; cow; dog; cat; a rodent, e.g., guinea pig, rat, or mouse; rabbit; or a bird; reptile; or fish.

[0060] “Providing a biological sample” means to obtain a biological sample for use in methods described in this invention. Most often, this will be done by removing a sample of cells from an animal, but can also be accomplished by using previously isolated cells (e.g., isolated by another person, at another time, and/or for another purpose), or by performing the methods of the invention in vivo. Archival tissues, having treatment or outcome history, will be particularly useful.

[0061] The terms “identical” or percent “identity,” in the context of two or more nucleic acids or polypeptide sequences, refer to two or more sequences or subsequences that are the same or have a specified percentage of amino acid residues or nucleotides that are the same (e.g., about 60% identity, preferably 70%, 75%, 80%, 85%, 90%, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, or higher identity over a specified region, when compared and aligned for maximum correspondence over a comparison window or designated region) as measured using a BLAST or BLAST 2.0 sequence comparison algorithms with default parameters described below, or by manual alignment and visual inspection (see, e.g., NCBI web site http://www.ncbi.nlm.nih.gov/BLAST/ or the like). Such sequences are then said to be “substantially identical.” This definition also refers to, or may be applied to, the compliment of a test sequence. The definition also includes sequences that have deletions and/or additions, substitutions, naturally occurring variants, e.g., polymorphic or allelic, and manmade variants. As described below, the preferred algorithms can account for gaps and the like. Preferably, identity exists over a region that is at least about 25 amino acids or nucleotides in length, or more preferably over a region that is 50-100 amino acids or nucleotides in length.

[0062] For sequence comparison, typically one sequence acts as a reference sequence, to which test sequences are compared. When using a sequence comparison computer algorithm, test and reference sequences, subsequence coordinates, and sequence algorithm program parameters are typically designated. Default or alternative program parameters can be selected. The sequence comparison algorithm then calculates the percent sequence identities for the test sequences relative to the reference sequence, based on the program parameters.

[0063] A “comparison window”, as used herein, includes reference to a segment of one of the number of contiguous positions selected from the group consisting typically of from about 20-600, usually about 50-200, more usually about 100-150 in which a sequence may be compared to a reference sequence of the same number of contiguous positions after the two sequences are optimally aligned. Methods of alignment of sequences for comparison are well-known in the art. Optimal alignment of sequences for comparison can be conducted, by, e.g., the local homology algorithm of Smith and Waterman (1981) Adv. Appl. Math. 2:482, the homology alignment algorithm of Needleman and Wunsch (1970) J. Mol. Biol. 48:443-453, the search for similarity method of Pearson and Lipman (1988) Proc. Nat'l Acad. Sci. USA 85:2444-448, computerized implementations of these algorithms (GAP, BESTFIT, FASTA, and TFASTA in the Wisconsin Genetics Software Package, Genetics Computer Group, 575 Science Dr., Madison, Wis.), or manual alignment and visual inspection (see, e.g., Ausubel, et al. (eds. 1995 and supplements) Current Protocols in Molecular Biology Lippincott.

[0064] Preferred algorithms suitable for determining percent sequence identity and sequence similarity include the BLAST and BLAST 2.0 algorithms. See Altschul, et al. (1977) Nuc. Acids Res. 25:3389-3402; and Altschul, et al. (1990) J. Mol. Biol. 215:403-410. BLAST and BLAST 2.0 are used, with the parameters described herein, to determine percent sequence identity for the nucleic acids and proteins of the invention. Software for performing BLAST analyses is publicly available through the National Center for Biotechnology Information (http://www.ncbi.nlm.nih.gov/). This algorithm involves first identifying high scoring sequence pairs (HSPs) by identifying short words of length W in the query sequence, which either match or satisfy some positive-valued threshold score T when aligned with a word of the same length in a database sequence. T is referred to as the neighborhood word score threshold (Altschul, et al., supra). These initial neighborhood word hits act as seeds for initiating searches to find longer HSPs containing them. The word hits are extended in both directions along each sequence for as far as the cumulative alignment score can be increased. Cumulative scores are calculated using, e.g., for nucleotide sequences, the parameters M (reward score for a pair of matching residues; always >0) and N (penalty score for mismatching residues; always <0). For amino acid sequences, a scoring matrix is used to calculate the cumulative score. Extension of the word hits in each direction are halted when: the cumulative alignment score falls off by the quantity X from its maximum achieved value; the cumulative score goes to zero or below, due to the accumulation of one or more negative-scoring residue alignments; or the end of either sequence is reached. The BLAST algorithm parameters W, T, and X determine the sensitivity and speed of the alignment. The BLASTN program (for nucleotide sequences) uses as defaults a wordlength (W) of 11, an expectation (E) of 10, M=5, N=−4, and a comparison of both strands. For amino acid sequences, the BLASTP program uses as defaults a wordlength of 3, expectation (E) of 10, and the BLOSUM62 scoring matrix (see Henikoff and Henikoff (1989) Proc. Nat'l Acad. Sci. USA 89:10915-919) alignments (B) of 50, expectation (E) of 10, M=5, N=−4, and a comparison of both strands.

[0065] The BLAST algorithm also performs a statistical analysis of the similarity between two sequences (see, e.g., Karlin and Altschul (1993) Proc. Nat'l Acad. Sci. USA 90:5873-5787). One measure of similarity provided by the BLAST algorithm is the smallest sum probability (P(N)), which provides an indication of the probability by which a match between two nucleotide or amino acid sequences would occur by chance. For example, a nucleic acid is considered similar to a reference sequence if the smallest sum probability in a comparison of the test nucleic acid to the reference nucleic acid is less than about 0.2, more preferably less than about 0.01, and most preferably less than about 0.001. Log values may be large negative numbers, e.g., 5, 10, 20, 30, 40, 40, 70, 90, 110, 150, 170, etc.

[0066] An indication that two nucleic acid sequences or polypeptides are substantially identical is that the polypeptide encoded by the first nucleic acid is immunologically cross reactive with the antibodies raised against the polypeptide encoded by the second nucleic acid, as described below. Thus, a polypeptide is typically substantially identical to a second polypeptide, e.g., where the two peptides differ only by conservative substitutions. Another indication that two nucleic acid sequences are substantially identical is that the two molecules or their complements hybridize to each other under stringent conditions, as described below. Yet another indication that two nucleic acid sequences are substantially identical is that the same primers can be used to amplify the sequences.

[0067] A “host cell” is a naturally occurring cell or a transformed cell that contains an expression vector and supports the replication or expression of the expression vector. Host cells may be cultured cells, explants, cells in vivo, and the like. Host cells may be prokaryotic cells such as E. coli, or eukaryotic cells such as yeast, insect, amphibian, or mammalian cells such as CHO, HeLa, and the like (see, e.g., the American Type Culture Collection catalog or web site, www.atcc.org).

[0068] The terms “isolated,” “purified,” or “biologically pure” refer to material that is substantially or essentially free from components that normally accompany it as found in its native state. Purity and homogeneity are typically determined using analytical chemistry techniques such as polyacrylamide gel electrophoresis or high performance liquid chromatography. A protein or nucleic acid that is the predominant species present in a preparation is substantially purified. In particular, an isolated nucleic acid is separated from some open reading frames that naturally flank the gene and encode proteins other than protein encoded by the gene. The term “purified” in some embodiments typically denotes that a nucleic acid or protein gives rise to essentially one band in an electrophoretic gel. Preferably, it means that the nucleic acid or protein is at least 85% pure, more preferably at least 95% pure, and most preferably at least 99% pure. “Purify” or “purification” in other embodiments means removing at least one contaminant from the composition to be purified. In this sense, purification does not require that the purified compound be homogeneous, e.g., 100% pure.

[0069] The terms “polypeptide,” “peptide,” and “protein” are used interchangeably herein to refer to a polymer of amino acid residues. The terms apply to amino acid polymers in which at least one amino acid residue is an artificial chemical mimetic of a corresponding naturally occurring amino acid, as well as to naturally occurring amino acid polymers, those containing modified residues, and a non-naturally occurring amino acid polymer.

[0070] The term “amino acid” embraces naturally occurring or synthetic amino acids, amino acid analogs, and amino acid mimetics. Naturally occurring amino acids are those encoded by the genetic code, as well as those amino acids that are later modified, e.g., hydroxyproline, γ-carboxyglutamate, and O-phosphoserine. Amino acid analogs include compounds that share a basic chemical structure with a naturally occurring amino acid, e.g., an a carbon that is bound to a hydrogen, a carboxyl group, an amino group, or an R group, e.g., homoserine, norleucine, methionine sulfoxide, methionine methyl sulfonium. Such analogs may have modified R groups (e.g., norleucine) or modified peptide backbones, but share some basic chemical structure with a naturally occurring amino acid. Amino acid mimetics include chemical compounds that have a structure that is different from the general chemical structure of an amino acid, but that function similarly to a naturally occurring amino acid.

[0071] Amino acids may be referred to herein by their commonly known three letter symbols or by the one-letter symbols recommended by the IUPAC-IUB Biochemical Nomenclature Commission. Nucleotides, likewise, may be referred to by their commonly accepted single-letter codes.

[0072] “Conservatively modified variants” applies to amino acid or nucleic acid sequences. With respect to particular nucleic acid sequences, conservatively modified variants refers to those nucleic acids which encode identical or essentially identical amino acid sequences, or where the nucleic acid does not encode an amino acid sequence, to essentially identical or associated, e.g., naturally contiguous, sequences. Because of the degeneracy of the genetic code, a large number of functionally identical nucleic acids encode most proteins. For instance, the codons GCA, GCC, GCG, and GCU all encode the amino acid alanine. Thus, at each position where an alanine is specified by a codon, the codon can be altered to another of the corresponding codons described without altering the encoded polypeptide. Such nucleic acid variations are “silent variations,” which are one species of conservatively modified variations. Each nucleic acid sequence herein which encodes a polypeptide also describes silent variations of the nucleic acid. One of skill will recognize that in certain contexts each codon in a nucleic acid (except AUG, which is ordinarily the only codon for methionine, and TGG, which is ordinarily the only codon for tryptophan) can be modified to yield a functionally identical molecule. Accordingly, often silent variations of a nucleic acid which encodes a polypeptide is implicit in a described sequence with respect to the expression product, but not with respect to actual probe sequences.

[0073] As to amino acid sequences, one of skill will recognize that individual substitutions, deletions, or additions to a nucleic acid, peptide, polypeptide, or protein sequence which alters, adds, or deletes a single amino acid or a small percentage of amino acids in the encoded sequence is a “conservatively modified variant” where the alteration results in the substitution of an amino acid with a chemically similar amino acid. Conservative substitution tables providing functionally similar amino acids are well known in the art. Such conservatively modified variants are in addition to and do not exclude polymorphic variants, interspecies homologs, and alleles of the invention. Typically conservative substitutions for one another include: 1) Alanine (A), Glycine (G); 2) Aspartic acid (D), Glutamic acid (E); 3) Asparagine (N), Glutamine (Q); 4) Arginine (R), Lysine (K); 5) Isoleucine (I), Leucine (L), Methionine (M), Valine (V); 6) Phenylalanine (F), Tyrosine (Y), Tryptophan (W); 7) Serine (S), Threonine (T); and 8) Cysteine (C), Methionine (M). See, e.g., Creighton (1984) Proteins: Structure and Molecular Properties Freeman.

[0074] Macromolecular structures such as polypeptide structures can be described in terms of various levels of organization. See, e.g., Alberts, et al. (eds. 2001) Molecular Biology of the Cell (4th ed.) Garland; and Cantor and Schimmel (1980) Biophysical Chemistry Part I: The Conformation of Biological Macromolecules Freeman. “Primary structure” refers to the amino acid sequence of a particular peptide. “Secondary structure” refers to locally ordered, three dimensional structures within a polypeptide. These structures are commonly known as domains, which are portions of a polypeptide that often form a compact unit of the polypeptide, and are typically about 25-500 amino acids long. Typical domains are made of sections of lesser organization such as stretches of β-sheet and α-helices. “Tertiary structure” refers to the complete three dimensional structure of a polypeptide monomer. “Quaternary structure” refers to the three dimensional structure formed, usually by the non-covalent association of independent tertiary units. Anisotropic terms are also known as energy terms.

[0075] “Nucleic acid” or “oligonucleotide” or “polynucleotide” or grammatical equivalents used herein means at least two nucleotides covalently linked together. Oligonucleotides are typically from about 5, 6, 7, 8, 9, 10, 12, 15, 25, 30, 40, 50 or more nucleotides in length, up to about 100 nucleotides in length. Nucleic acids and polynucleotides are polymers, including longer lengths, e.g., 200, 300, 500, 1000, 2000, 3000, 5000, 7000, 10,000, etc. A nucleic acid of the present invention will generally contain phosphodiester bonds. In some cases, nucleic acid analogs are included that may have alternate backbones, e.g., phosphoramidate (Beaucage, et al. (1993) Tetrahedron 49:1925-963 and references therein; Letsinger (1970) J. Org. Chem. 35:3800-803; Sprinzl, et al. (1977) Eur. J. Biochem. 81:579-589; Letsinger, et al. (1986) Nucl. Acids Res. 14:3487-499; Sawai, et al. (1984) Chem. Lett. 805; Letsinger, et al. (1988) J. Am. Chem. Soc. 110:4470-471; and Pauwels, et al. (1986) Chemica Scripta 26:141-149); phosphorothioate (Mag, et al. (1991), Nucleic Acids Res. 19:1437-441; and U.S. Pat. No. 5,644,048); phosphorodithioate (Brill, et al. (1989) J. Am. Chem. Soc. 111:2321-322); O-methylphophoroamidite linkages (see Eckstein (1992) Oligonucleotides and Analogues: A Practical Approach Oxford Univ. Press); and peptide nucleic acid backbones and linkages (see Egholm (1992) J. Am. Chem. Soc. 114:1895-897; Meier, et al. (1992) Chem. Int. Ed. Engl. 31:1008-010; Nielsen (1993) Nature 365:566-568; Carlsson, et al. (1996) Nature 380:207. Other analog nucleic acids include those with positively charged backbones (Denpcy, et al. (1995) Proc. Nat'l Acad. Sci. USA 92:6097-101); non-ionic backbones (U.S. Pat. Nos. 5,386,023; 5,637,684; 5,602,240; 5,216,141; and 4,469,863; Kiedrowshi, et al. (1991) Angew. Chem. Intl. Ed. English 30:423-426; Letsinger, et al. (1988) J. Am. Chem. Soc. 110:4470-471; Jung, et al. (1994) Nucleoside and Nucleotide 13:1597-xxx; Chapters 2-3 of Sanghvi and Cook (eds. 1994) Carbohydrate Modifications in Antisense Research ACS Symposium Series 580; Mesmaeker, et al. (1994) Bioorganic and Medicinal Chem. Lett. 4:395-398; Jeffs, et al. (1994) J. Biomolecular NMR 34:17; Horn, et al. (1996) Tetrahedron Lett. 37:743-xxx); and non-ribose backbones (see U.S. Pat. Nos. 5,235,033 and 5,034,506, and Chapters 6-7 of Sanghvi and Cook (eds. 1994) Carbohydrate Modifications in Antisense Research ACS Symposium Series 580. Nucleic acids containing one or more carbocyclic sugars are also contemplated. See Jenkins and Turner (1995) Chem. Soc. Rev. 24:169-176. Several nucleic acid analogs are described in Rawls (page 35, Jun. 2, 1997) C&E News. Modifications of the ribose-phosphate backbone may be made, e.g., to increase the stability and half-life of such molecules in physiological environments or as probes on a biochip. Mixtures of naturally occurring nucleic acids and analogs can be made; alternatively, mixtures of different nucleic acid analogs, and mixtures of naturally occurring nucleic acids and analogs may be made.

[0076] Particularly preferred are peptide nucleic acids (PNA) which include peptide nucleic acid analogs. These backbones are substantially non-ionic under neutral conditions, in contrast to the highly charged phosphodiester backbone of naturally occurring nucleic acids. The PNA backbone typically exhibits improved hybridization kinetics, exhibiting larger changes in the melting temperature (T_(m)) for mismatched versus perfectly matched basepairs. DNA and RNA typically exhibit a 2-4° C. drop in T_(m) for an internal mismatch. With the non-ionic PNA backbone, the drop is closer to 7-9° C. And due to their non-ionic nature, hybridization of the polymers is relatively insensitive to salt concentration. In addition, PNAs are not as easily degraded by cellular enzymes, and can be more stable.

[0077] The nucleic acids may be single stranded or double stranded, or contain portions of both double stranded or single stranded sequence. As will be appreciated by those in the art, the depiction of a single strand also defines the sequence of the complementary strand; thus the sequences described herein also provide the complement of the sequence. The nucleic acid may be DNA, both genomic and cDNA, RNA, or a hybrid, where the nucleic acid may contain combinations of deoxyribo- and ribo-nucleotides, and combinations of bases, including uracil, adenine, thymine, cytosine, guanine, inosine, xanthine, hypoxanthine, isocytosine, isoguanine, etc. “Transcript” typically refers to a naturally occurring RNA, e.g., a pre-mRNA, hnRNA, or mRNA. As used herein, the term “nucleoside” includes nucleotides and nucleoside and nucleotide analogs, and modified nucleosides such as amino modified nucleosides. In addition, “nucleoside” includes non-naturally occurring analog structures. Thus, e.g., the individual units of a peptide nucleic acid, each containing a base, are referred to herein as a nucleoside.

[0078] A “label” or “detectable moiety” is a composition detectable by spectroscopic, photochemical, biochemical, immunochemical, chemical, or other physical means. Direct or indirect methods are comtemplated. For example, useful labels include ³²P, fluorescent dyes, electron-dense reagents, enzymes (e.g., as commonly used in an ELISA), biotin, digoxigenin, or haptens and proteins or other entities which can be made detectable, e.g., by incorporating a radiolabel into the peptide or used to detect antibodies specifically reactive with the peptide. The labels may be incorporated into the bladder cancer nucleic acids, proteins, and antibodies. Methods are well known for conjugating the antibody to the label, including those methods described by Hunter, et al. (1962) Nature 144:945-946; David, et al. (1974) Biochemistry 13:1014-021; Pain, et al. (1981) J. Immunol. Meth. 40:219-230; and Nygren (1982) J. Histochem, and Cytochem. 30:407-412.

[0079] An “effector” or “effector moiety” or “effector component” is a molecule that is bound (or linked, or conjugated), either covalently, through a linker or a chemical bond, or noncovalently, through ionic, van der Waals, electrostatic, or hydrogen bonds, to a target, e.g., an antibody. The “effector” can be a variety of molecules including, e.g., detection moieties including radioactive compounds; fluorescent compounds; an enzyme or substrate; tags such as epitope tags; a toxin; activatable moieties; a chemotherapeutic agent; a lipase; an antibiotic; a radioisotope emitting “hard”, e.g., beta radiation; or an attracting moiety.

[0080] A “labeled nucleic acid probe or oligonucleotide” is one that is bound, either covalently, through a linker or a chemical bond, or noncovalently, through ionic, van der Waals, electrostatic, or hydrogen bonds to a label such that the presence of the probe may be detected by detecting the presence of the label bound to the probe. Alternatively, method using high affinity interactions may achieve the same results where one of a pair of binding partners binds to the other, e.g., biotin, streptavidin.

[0081] As used herein a “nucleic acid probe or oligonucleotide” is defined as a nucleic acid capable of binding to a target nucleic acid of complementary sequence through one or more types of chemical bonds, usually through complementary base pairing, usually through hydrogen bond formation. As used herein, a probe may include natural (e.g., A, G, C, or T) or modified bases (7-deazaguanosine, inosine, etc.). In addition, the bases in a probe may be joined by a linkage other than a phosphodiester bond, so long as it does not functionally interfere with hybridization. Thus, e.g., probes may be peptide nucleic acids in which the constituent bases are joined by peptide bonds rather than phosphodiester linkages. Probes may bind target sequences lacking complete complementarity with the probe sequence depending upon the stringency of the hybridization conditions. The probes are preferably directly labeled as with isotopes, chromophores, lumiphores, chromogens, or indirectly labeled such as with biotin to which streptavidin linked label may bind. By assaying for the presence or absence of the probe, one can detect the presence or absence of the select sequence or subsequence. Diagnosis or prognosis may be based at the genomic level, or at the level of RNA or protein expression.

[0082] The term “recombinant” when used with reference, e.g., to a cell, or nucleic acid, protein, or vector, indicates that the cell, nucleic acid, protein or vector, has been modified by the introduction of a heterologous nucleic acid or protein or the alteration of a native nucleic acid or protein, or that the cell is derived from a cell so modified. Thus, e.g., recombinant cells express genes that are not found within the native (non-recombinant) form of the cell or express native genes that are otherwise abnormally expressed, under expressed, or not expressed at all. By the term “recombinant nucleic acid” herein is meant nucleic acid, originally formed in vitro, in general, by the manipulation of nucleic acid, e.g., using polymerases and endonucleases, in a form not normally found in nature. In this manner, operable linkage of different sequences is achieved. Thus an isolated nucleic acid, in a linear form, or an expression vector formed in vitro by ligating DNA molecules that are not normally joined, are both considered recombinant for the purposes of this invention. It is understood that once a recombinant nucleic acid is made and reintroduced into a host cell or organism, it will replicate non-recombinantly, e.g., using in vivo cellular machinery of the host cell rather than in vitro manipulations; however, such nucleic acids, once produced recombinantly, although subsequently replicated non-recombinantly, are still considered recombinant for the purposes of the invention. Similarly, a “recombinant protein” is a protein made using recombinant techniques, e.g., through the expression of a recombinant nucleic acid as depicted above.

[0083] The term “heterologous” when used with reference to portions of a nucleic acid indicates that the nucleic acid comprises two or more subsequences that are not normally found in the same relationship to each other in nature. For instance, the nucleic acid is typically recombinantly produced, having two or more sequences, e.g., from unrelated genes arranged to make a new functional nucleic acid, e.g., a promoter from one source and a coding region from another source. Similarly, a heterologous protein will often refer to two or more subsequences that are not found in the same relationship to each other in nature (e.g., a fusion protein).

[0084] A “promoter” is defined as an array of nucleic acid control sequences that direct transcription of a nucleic acid. As used herein, a promoter includes necessary nucleic acid sequences near the start site of transcription, such as, in the case of a polymerase II type promoter, a TATA element. A promoter also optionally includes distal enhancer or repressor elements, which can be located as much as several thousand base pairs from the start site of transcription. A “constitutive” promoter is a promoter that is active under most environmental and developmental conditions. An “inducible” promoter is a promoter that is active under environmental or developmental regulation. The term “operably linked” refers to a functional linkage between a nucleic acid expression control sequence (such as a promoter, or array of transcription factor binding sites) and a second nucleic acid sequence, wherein the expression control sequence directs transcription of the nucleic acid corresponding to the second sequence.

[0085] An “expression vector” is a nucleic acid construct, generated recombinantly or synthetically, with a series of specified nucleic acid elements that permit transcription of a particular nucleic acid in a host cell. The expression vector can be part of a plasmid, virus, or nucleic acid fragment. Typically, the expression vector includes a nucleic acid to be transcribed operably linked to a promoter.

[0086] The phrase “selectively (or specifically) hybridizes to” refers to the binding, duplexing, or hybridizing of a molecule only to a particular nucleotide sequence under stringent hybridization conditions when that sequence is present in a complex mixture (e.g., total cellular or library DNA or RNA).

[0087] The phrase “stringent hybridization conditions” refers to conditions under which a probe will hybridize to its target subsequence, typically in a complex mixture of nucleic acids, but to no other sequences. Stringent conditions are sequence-dependent and will be different in different circumstances. Longer sequences hybridize specifically at higher temperatures. An extensive guide to the hybridization of nucleic acids is found in “Overview of principles of hybridization and the strategy of nucleic acid assays” in Tijssen (1993) Hybridization with Nucleic Probes (Techniques in Biochemistry and Molecular Biology; vol. 24) Elsevier. Generally, stringent conditions are selected to be about 5-10° C. lower than the thermal melting point (T_(m)) for the specific sequence at a defined ionic strength pH. The T_(m) is the temperature (under defined ionic strength, pH, and nucleic acid concentration) at which 50% of the probes complementary to the target hybridize to the target sequence at equilibrium (as the target sequences are present in excess, at T_(m), 50% of the probes are occupied at equilibrium). Stringent conditions will be those in which the salt concentration is less than about 1.0 M sodium ion, typically about 0.01 to 1.0 M sodium ion concentration (or other salts) at pH 7.0 to 8.3 and the temperature is at least about 30° C. for short probes (e.g., about 10-50 nucleotides) and at least about 60° C. for long probes (e.g., greater than about 50 nucleotides). Stringent conditions may also be achieved with the addition of destabilizing agents such as formamide. For selective or specific hybridization, a positive signal is at least about two times background, preferably about 10 times background hybridization. Exemplary stringent hybridization conditions can be as following: 50% formamide, 5×SSC, and 1% SDS, incubating at 42° C., or, 5×SSC, 1% SDS, incubating at 65° C., with wash in 0.2×SSC, and 0.1% SDS at 65° C. For PCR, a temperature of about 36° C. is typical for low stringency amplification, although annealing temperatures may vary between about 32-48° C. depending on primer length. For high stringency PCR amplification, a temperature of about 62° C. is typical, although high stringency annealing temperatures can range from about 50-65° C., depending on the primer length and specificity. Typical cycle conditions for both high and low stringency amplifications include a denaturation phase of 90-95° C. for 30-120 sec, an annealing phase lasting 30-120 sec, and an extension phase of about 72° C. for 1-2 min. Protocols and guidelines for low and high stringency amplification reactions are provided, e.g., in Innis, et al. (1990) PCR Protocols, A Guide to Methods and Applications Academic Press NY.

[0088] Nucleic acids that do not hybridize to each other under stringent conditions are still substantially identical if the polypeptides which they encode are substantially identical. This occurs, e.g., when a copy of a nucleic acid is created using the maximum codon degeneracy permitted by the genetic code. In such cases, the nucleic acids typically hybridize under moderately stringent hybridization conditions. Exemplary “moderately stringent hybridization conditions” include a hybridization in a buffer of 40% formamide, 1 M NaCl, 1% SDS at 37° C., and a wash in 1×SSC at 45° C. A positive hybridization is at least about twice background. Alternative hybridization and wash conditions can be utilized to provide conditions of similar stringency. Additional guidelines for determining hybridization parameters are provided in numerous references, e.g.,. Ausubel, et al. Current Protocols in Molecular Biology Lippincott.

[0089] The phrase “functional effects” in the context of assays for testing compounds that modulate activity of a bladder cancer protein includes the determination of a parameter that is indirectly or directly under the influence of the bladder cancer protein or nucleic acid, e.g., a functional, physical, or chemical effect, such as the ability to decrease bladder cancer. It includes ligand binding activity; cell growth on soft agar; anchorage dependence; contact inhibition and density limitation of growth; cell viability, cellular proliferation; cellular transformation; growth factor or serum dependence; tumor specific marker levels; invasiveness into Matrigel; tumor growth and metastasis in vivo; mRNA and protein expression in cells undergoing metastasis, and other characteristics of bladder cancer cells. “Functional effects” include in vitro, in vivo, and ex vivo activities.

[0090] By “determining the functional effect” is meant assaying for a compound that increases or decreases a parameter that is indirectly or directly under the influence of a bladder cancer protein sequence, e.g., functional, enzymatic, physical and chemical effects. Such functional effects can be measured by many means known to those skilled in the art, e.g., changes in spectroscopic characteristics (e.g., fluorescence, absorbance, refractive index), hydrodynamic (e.g., shape), chromatographic, or solubility properties for the protein, measuring inducible markers or transcriptional activation of the bladder cancer protein; measuring binding activity or binding assays, e.g., binding to antibodies or other ligands, and measuring cellular proliferation or metabolism. Determination of the functional effect of a compound on bladder cancer can also be performed using bladder cancer assays, such as, in vitro assays, e.g., cell growth on soft agar; anchorage dependence; contact inhibition and density limitation of growth; cellular proliferation; cellular transformation; growth factor or serum dependence; tumor specific marker levels; invasiveness into Matrigel; tumor growth and metastasis in vivo; mRNA and protein expression in cells undergoing metastasis, and other characteristics of bladder cancer cells. Functional effects can be evaluated by many means, e.g., microscopy for quantitative or qualitative measures of alterations in morphological features, measurement of changes in RNA or protein levels for bladder cancer-associated sequences, measurement of RNA stability, identification of downstream or reporter gene expression (CAT, luciferase, β-gal, GFP, and the like), e.g., via chemiluminescence, fluorescence, calorimetric reactions, antibody binding, inducible markers, and ligand binding assays.

[0091] “Inhibitors”, “activators”, and “modulators” of bladder cancer polynucleotide and polypeptide sequences are used to refer to activating, inhibitory, or modulating molecules or compounds identified using in vitro and in vivo assays of bladder cancer polynucleotide and polypeptide sequences. Inhibitors are compounds that, e.g., bind to, partially or totally block activity, decrease, prevent, delay activation, inactivate, desensitize, or down regulate the activity or expression of bladder cancer proteins, e.g., antagonists. Antisense nucleic acids may seem to inhibit expression and subsequent function of the protein. “Activators” are compounds that increase, open, activate, facilitate, enhance activation, sensitize, agonize, or up regulate bladder cancer protein activity. Inhibitors, activators, or modulators also include genetically modified versions of bladder cancer proteins, e.g., versions with altered activity, as well as naturally occurring and synthetic ligands, antagonists, agonists, antibodies, small chemical molecules and the like. Such assays for inhibitors and activators include, e.g., expressing the bladder cancer protein in vitro, in cells, or cell membranes, applying putative modulator compounds, and then determining the functional effects on activity, as described above. Activators and inhibitors of bladder cancer can also be identified by incubating bladder cancer cells with the test compound and determining increases or decreases in the expression of 1 or more bladder cancer proteins, e.g., 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 40, 50 or more bladder cancer proteins, such as bladder cancer proteins encoded by the sequences set out in Tables 1A-13.

[0092] Samples or assays comprising bladder cancer proteins that are treated with a potential activator, inhibitor, or modulator are compared to control samples without the inhibitor, activator, or modulator to examine the extent of inhibition. Control samples (untreated with inhibitors) are assigned a relative protein activity value of 100%. Inhibition of a polypeptide is achieved when the activity value relative to the control is about 80%, preferably about 50%, more preferably about 25-0%. Activation of a bladder cancer polypeptide is achieved when the activity value relative to the control (untreated with activators) is about 110%, more preferably about 150%, more preferably about 200-500% (e.g., two to five fold higher relative to the control), more preferably about 1000-3000% higher.

[0093] The phrase “changes in cell growth” refers to a change in cell growth and proliferation characteristics in vitro or in vivo, such as cell viability, formation of foci, anchorage independence, semi-solid or soft agar growth, changes in contact inhibition and density limitation of growth, loss of growth factor or serum requirements, changes in cell morphology, gaining or losing immortalization, gaining or losing tumor specific markers, ability to form or suppress tumors when injected into suitable animal hosts, and/or immortalization of the cell. See, e.g., pp. 231-241 of Freshney (1994) Culture of Animal Cells: A Manual of Basic Technique (3d ed.).

[0094] “Tumor cell” refers to precancerous, cancerous, and normal cells in a tumor.

[0095] “Cancer cells,” “transformed” cells or “transformation” in tissue culture, refers to spontaneous or induced phenotypic changes that do not necessarily involve the uptake of new genetic material. Although transformation can arise from infection with a transforming virus and incorporation of new genomic DNA, or uptake of exogenous DNA, it can also arise spontaneously or following exposure to a carcinogen, thereby mutating an endogenous gene. Transformation is associated with phenotypic changes, such as immortalization of cells, aberrant growth control, nonmorphological changes, and/or malignancy. See, Freshney (2000) Culture of Animal Cells: A Manual of Basic Technique (4th ed.) Wiley-Liss.

[0096] “Antibody” refers to a polypeptide comprising a framework region from an immunoglobulin gene or fragments thereof that specifically binds and recognizes an antigen. The recognized immunoglobulin genes include the kappa, lambda, alpha, gamma, delta, epsilon, and mu constant region genes, as well as the myriad immunoglobulin variable region genes. Light chains are classified as either kappa or lambda. Heavy chains are classified as gamma, mu, alpha, delta, or epsilon, which in turn define the immunoglobulin classes, IgG, IgM, IgA, IgD and IgE, respectively. Typically, the antigen-binding region of an antibody or its functional equivalent will be most critical in specificity and affinity of binding. See Paul (ed. 1999) Fundamental Immunology (4th ed.) Raven.

[0097] An exemplary immunoglobulin (antibody) structural unit comprises a tetramer. Each tetramer is composed of two identical pairs of polypeptide chains, each pair having one “light” (about 25 kD) and one “heavy” chain (about 50-70 kD). The N-terminus of each chain defines a variable region of about 100 to 110 or more amino acids primarily responsible for antigen recognition. The terms variable light chain (V_(L)) and variable heavy chain (V_(H)) refer to these light and heavy chains respectively.

[0098] Antibodies exist, e.g., as intact immunoglobulins or as a number of well-characterized fragments produced by digestion with various peptidases. Thus, e.g., pepsin digests an antibody below the disulfide linkages in the hinge region to produce F(ab)′₂, a dimer of Fab which itself is a light chain joined to V_(H)-C_(H)1 by a disulfide bond. The F(ab)′₂ may be reduced under mild conditions to break the disulfide linkage in the hinge region, thereby converting the F(ab)′₂ dimer into an Fab′ monomer. The Fab′ monomer is essentially Fab with part of the hinge region. See Paul (ed. 1999) Fundamental Immunology (4th ed.) Raven. While various antibody fragments are defined in terms of the digestion of an intact antibody, such fragments may be synthesized de novo either chemically or by using recombinant DNA methodology. Thus, the term antibody, as used herein, also includes antibody fragments either produced by the modification of whole antibodies, or those synthesized de novo using recombinant DNA methodologies (e.g., single chain Fv) or those identified using phage display libraries. See, e.g., McCafferty, et al. (1990) Nature 348:552-554.

[0099] For preparation of antibodies, e.g., recombinant, monoclonal, or polyclonal antibodies, many techniques can be used. See, e.g., Kohler and Milstein (1975) Nature 256:495-497; Kozbor, et al. (1983) Immunology Today 4:72; Cole, et al. pp. 77-96 in Reisfeld and Sell (1985) Monoclonal Antibodies and Cancer Therapy Liss; Coligan (1991) Current Protocols in Immunology Lippincott; Harlow and Lane (1988) Antibodies: A Laboratory Manual CSH Press; and Goding (1986) Monoclonal Antibodies: Principles and Practice (2d ed.) Academic Press. Techniques for the production of single chain antibodies (U.S. Pat. No. 4,946,778) can be adapted to produce antibodies to polypeptides of this invention. Also, transgenic mice, or other organisms such as other mammals, may be used to express humanized antibodies. Alternatively, phage display technology can be used to identify antibodies and heteromeric Fab fragments that specifically bind to selected antigens. See, e.g., McCafferty, et al. (1990) Nature 348:552-554; and Marks, et al. (1992) Biotechnology 10:779-783.

[0100] A “chimeric antibody” is an antibody molecule in which (a) the constant region, or a portion thereof, is altered, replaced, or exchanged so that the antigen binding site (variable region) is linked to a constant region of a different or altered class, effector function, and/or species, or an entirely different molecule which confers new properties to the chimeric antibody, e.g., an enzyme, toxin, hormone, growth factor, drug, etc.; or (b) the variable region, or a portion thereof, is altered, replaced, or exchanged with a variable region having a different or altered antigen specificity.

[0101] Identification of Bladder Cancer-Associated Sequences

[0102] In one aspect, the expression levels of genes are determined in different patient samples for which diagnosis information is desired, to provide expression profiles. An expression profile of a particular sample is essentially a “fingerprint” of the state of the sample; while two states may have a particular gene similarly expressed, the evaluation of a number of genes simultaneously allows the generation of a gene expression profile that is characteristic of the state of the cell. That is, normal tissue (e.g., normal bladder or other tissue) may be distinguished from cancerous or metastatic cancerous tissue of the bladder, or bladder cancer tissue or metastatic bladder cancerous tissue can be compared with tissue samples of bladder and other tissues from surviving cancer patients. By comparing expression profiles of tissue in known different bladder cancer states, information regarding which genes are important (including both up- and down-regulation of genes) in each of these states is obtained.

[0103] The identification of sequences that are differentially expressed in bladder cancer versus non-bladder cancer tissue allows the use of this information in a number of ways. For example, a particular treatment regime may be evaluated: does a chemotherapeutic drug act to down-regulate bladder cancer, and thus tumor growth or recurrence, in a particular patient; or does chemotherapy or radiation therapy induce expression of particular targets. Similarly, diagnosis and treatment outcomes may be done or confirmed by comparing patient samples with the known expression profiles. Metastatic tissue can also be analyzed to determine the stage of bladder cancer in the tissue or origin of a primary tumor. Furthermore, these gene expression profiles (or individual genes) allow screening of drug candidates with an eye to mimicking or altering a particular expression profile; e.g., screening can be done for drugs that suppress the bladder cancer expression profile. This may be done by making biochips comprising sets of important bladder cancer genes, which can then be used in these screens. These methods can also be applied on the protein basis; that is, protein expression levels of the bladder cancer proteins can be evaluated for diagnostic purposes or to screen candidate agents. In addition, the bladder cancer nucleic acid sequences can be administered for gene therapy purposes, including the administration of antisense or inhibitory nucleic acids, or the bladder cancer proteins (including antibodies and other modulators thereof) administered as therapeutic drugs.

[0104] Thus the present invention provides nucleic acid and protein sequences that are differentially expressed in bladder disease or cancer relative to normal tissues and/or non-malignant bladder tissue, herein termed “bladder cancer sequences.” As outlined below, bladder cancer sequences include those that are up-regulated (e.g., expressed at a higher level) in bladder cancer, as well as those that are down-regulated (e.g., expressed at a lower level). In a preferred embodiment, the bladder cancer sequences are from humans; however, as will be appreciated by those in the art, bladder cancer sequences from other organisms may be useful in animal models of disease and drug evaluation; thus, other bladder cancer sequences are provided, from vertebrates, including mammals, including rodents (rats, mice, hamsters, guinea pigs, etc.), primates, farm animals (including sheep, goats, pigs, cows, horses, etc.) and pets, e.g., (dogs, cats, etc.). Bladder cancer sequences from other organisms may be obtained using the techniques outlined below.

[0105] Bladder cancer sequences can include both nucleic acid and amino acid sequences. Bladder cancer nucleic acid sequences are useful in a variety of applications, including diagnostic applications, which will detect naturally occurring nucleic acids, as well as screening applications. Biochips comprising nucleic acid probes or PCR microtiter plates with selected probes to the bladder cancer sequences can be generated.

[0106] A bladder cancer sequence can be initially identified by substantial nucleic acid and/or amino acid sequence homology to the bladder cancer sequences outlined herein. Such homology can be based upon the overall nucleic acid or amino acid sequence, and is generally determined as outlined below, using either homology programs or hybridization conditions.

[0107] For identifying bladder cancer-associated sequences, the bladder cancer screen typically includes comparing genes identified in different tissues, e.g., normal, non-malignant, or cancerous tissues, or tumor tissue samples from patients who have metastatic disease vs. non metastatic tissue. Other suitable tissue comparisons include comparing bladder cancer samples with metastatic cancer samples from other cancers, such as lung, bladder, gastrointestinal cancers, ovarian, etc. Samples of different stages of bladder cancer, e.g., survivor tissue, drug resistant states, and tissue undergoing metastasis, are applied to biochips comprising nucleic acid probes. The samples are first microdissected, if applicable, and treated for the preparation of mRNA. Suitable biochips are commercially available, e.g., from Affymetrix. Gene expression profiles as described herein are generated and the data analyzed.

[0108] In one embodiment, genes showing changes in expression as between normal and disease states are compared to genes expressed in other normal tissues, preferably normal bladder, but also including, and not limited to lung, heart, brain, liver, bladder, kidney, muscle, colon, small intestine, large intestine, spleen, bone, and placenta. In a preferred embodiment, those genes identified during the bladder cancer screen that are expressed in a significant amount in other tissues are removed from the profile, although in some embodiments, this is not necessary. That is, when screening for drugs, it is usually preferable that the target be disease specific, e.g., not be expressed on critical organs.

[0109] In a preferred embodiment, bladder cancer sequences are those that are up-regulated in bladder cancer; that is, the expression of these genes is higher in the bladder cancer tissue as compared to non-cancerous tissue. “Up-regulation” as used herein often means at least about a two-fold change, preferably at least about a three fold change, with at least about five-fold or higher being preferred. Unigene cluster identification numbers and accession numbers herein are for the GenBank sequence database and sequences of accession numbers are hereby expressly incorporated by reference. GenBank is known in the art, see, e.g., Benson, et al. (1998) Nuc. Acids Res. 26:1-7 and http://www.ncbi.nlm.nih.gov/. Sequences are also available in other databases, e.g., European Molecular Biology Laboratory (EMBL) and DNA Database of Japan (DDBJ).

[0110] In another preferred embodiment, bladder cancer sequences are those that are down-regulated in the bladder cancer; that is, the expression of these genes is lower in bladder cancer tissue as compared to non-cancerous tissue (see, e.g., Tables 1A-13). “Downregulation” as used herein often means at least about a two-fold change, preferably at least about a three fold change, with at least about five-fold or higher being preferred.

[0111] Informatics

[0112] The ability to identify genes that are over or under expressed in bladder cancer can additionally provide high-resolution, high-sensitivity datasets which can be used in the areas of diagnostics, therapeutics, drug development, pharmacogenetics, protein structure, biosensor development, and other related areas. For example, the expression profiles can be used in diagnostic or prognostic evaluation of patients with bladder cancer. Or as another example, subcellular toxicological information can be generated to better direct drug structure and activity correlation. See Anderson (Jun. 11-12, 1998) Pharmaceutical Proteomics: Targets, Mechanism, and Function, paper presented at the IBC Proteomics conference, Coronado, Calif. Subcellular toxicological information can also be utilized in a biological sensor device to predict the likely toxicological effect of chemical exposures and likely tolerable exposure thresholds (see U.S. Pat. No. 5,811,231). Similar advantages accrue from datasets relevant to other biomolecules and bioactive agents (e.g., nucleic acids, saccharides, lipids, drugs, and the like).

[0113] Thus, in another embodiment, the present invention provides a database that includes at least one set of assay data. The data contained in the database is acquired, e.g., using array analysis either singly or in a library format. The database can be in a form in which data can be maintained and transmitted, but is preferably an electronic database. The electronic database of the invention can be maintained on an electronic device allowing for the storage of and access to the database, such as a personal computer, but is preferably distributed on a wide area network, such as the World Wide Web.

[0114] The focus of the present section on databases that include peptide sequence data is for clarity of illustration only. It will be apparent that similar databases can be assembled for assay data acquired using an assay of the invention.

[0115] The compositions and methods for identifying and/or quantitating the relative and/or absolute abundance of a variety of molecular and macromolecular species from a biological sample undergoing bladder cancer, e.g., the identification of bladder cancer-associated sequences described herein, provide an abundance of information, which can be correlated with pathological conditions, predisposition to disease, drug testing, therapeutic monitoring, gene-disease causal linkages, identification of correlates of immunity and physiological status, among others. Although the data generated from the assays of the invention is suited for manual review and analysis, in a preferred embodiment, prior data processing using high-speed computers is utilized.

[0116] An array of methods for indexing and retrieving biomolecular information is known in the art. For example, U.S. Pat. Nos. 6,023,659 and 5,966,712 disclose a relational database system for storing biomolecular sequence information in a manner that allows sequences to be catalogued and searched according to one or more protein function hierarchies. U.S. Pat. No. 5,953,727 discloses a relational database having sequence records containing information in a format that allows a collection of partial-length DNA sequences to be catalogued and searched according to association with one or more sequencing projects for obtaining full-length sequences from the collection of partial length sequences. U.S. Pat. No. 5,706,498 discloses a gene database retrieval system for making a retrieval of a gene sequence similar to a sequence data item in a gene database based on the degree of similarity between a key sequence and a target sequence. U.S. Pat. No. 5,538,897 discloses a method using mass spectroscopy fragmentation patterns of peptides to identify amino acid sequences in computer databases by comparison of predicted mass spectra with experimentally-derived mass spectra using a closeness-of-fit measure. U.S. Pat. No. 5,926,818 discloses a multi-dimensional database comprising a functionality for multi-dimensional data analysis described as on-line analytical processing (OLAP), which entails the consolidation of projected and actual data according to more than one consolidation path or dimension. U.S. Pat. No. 5,295,261 reports a hybrid database structure in which the fields of each database record are divided into two classes, navigational and informational data, with navigational fields stored in a hierarchical topological map which can be viewed as a tree structure or as the merger of two or more such tree structures.

[0117] See also Mount, et al. (2001) Bioinformatics CSH Press, NY; Durbin, et al. (eds. 1999) Biological Sequence Analysis: Probabilistic Models of Proteins and Nucleic Acids Cambridge Univ. Press; Baxevanis and Oeullette (eds. 1998) Bioinformatics: A Practical Guide to the Analysis of Genes and Proteins (2d. ed.) Wiley-Liss; Rashidi and Buehler (1999) Bioinformatics: Basic Applications in Biological Science and Medicine CRC Press; Setubal, et al. (eds 1997) Introduction to Computational Molecular Biology Brooks/Cole; Misener and Krawetz (eds. 2000) Bioinformatics: Methods and Protocols Oxford Univ. Press; Higgins and Taylor (eds. 2000) Bioinformatics: Sequence, Structure, and Databanks: A Practical Approach Oxford Univ. Press; Brown (2001) Bioinformatics: A Biologist's Guide to Biocomputing and the Internet Eaton Pub.; Han and Kamber (2000) Data Mining: Concepts and Techniques Kaufmann Pub.; and Waterman (1995) Introduction to Computational Biology: Maps, Sequences, and Genomes Chap and Hall.

[0118] The present invention provides a computer database comprising a computer and software for storing in computer-retrievable form assay data records cross-tabulated, e.g., with data specifying the source of the target-containing sample from which each sequence specificity record was obtained.

[0119] In an exemplary embodiment, at least one of the sources of target-containing sample is from a control tissue sample known to be free of pathological disorders. In a variation, at least one of the sources is a known pathological tissue specimen, e.g., a neoplastic lesion or another tissue specimen to be analyzed for bladder cancer. In another variation, the assay records cross-tabulate one or more of the following parameters for each target species in a sample: (1) a unique identification code, which can include, e.g., a target molecular structure and/or characteristic separation coordinate (e.g., electrophoretic coordinates); (2) sample source; and (3) absolute and/or relative quantity of the target species present in the sample.

[0120] The invention also provides for the storage and retrieval of a collection of target data in a computer data storage apparatus, which can include magnetic disks, optical disks, magneto-optical disks, DRAM, SRAM, SGRAM, SDRAM, RDRAM, DDR RAM, magnetic bubble memory devices, and other data storage devices, including CPU registers and on-CPU data storage arrays. Typically, the target data records are stored as a bit pattern in an array of magnetic domains on a magnetizable medium or as an array of charge states or transistor gate states, such as an array of cells in a DRAM device (e.g., each cell comprised of a transistor and a charge storage area, which may be on the transistor). In one embodiment, the invention provides such storage devices, and computer systems built therewith, comprising a bit pattern encoding a protein expression fingerprint record comprising unique identifiers for at least 10 target data records cross-tabulated with target source.

[0121] When the target is a peptide or nucleic acid, the invention preferably provides a method for identifying related peptide or nucleic acid sequences, comprising performing a computerized comparison between a peptide or nucleic acid sequence assay record stored in or retrieved from a computer storage device or database and at least one other sequence. The comparison can include a sequence analysis or comparison algorithm or computer program embodiment thereof (e.g., FASTA, TFASTA, GAP, BESTFIT) and/or the comparison may be of the relative amount of a peptide or nucleic acid sequence in a pool of sequences determined from a polypeptide or nucleic acid sample of a specimen.

[0122] The invention also preferably provides a magnetic disk, such as an IBM-compatible (DOS, Windows, Windows95/98/2000, Windows NT, OS/2) or other format (e.g., Linux, SunOS, Solaris, AIX, SCO Unix, VMS, MV, Macintosh, etc.) floppy diskette or hard (fixed, Winchester) disk drive, comprising a bit pattern encoding data from an assay of the invention in a file format suitable for retrieval and processing in a computerized sequence analysis, comparison, or relative quantitation method.

[0123] The invention also provides a network, comprising a plurality of computing devices linked via a data link, such as an Ethernet cable (coax or 1 OBaseT), telephone line, ISDN line, wireless network, optical fiber, or other suitable signal transmission medium, whereby at least one network device (e.g., computer, disk array, etc.) comprises a pattern of magnetic domains (e.g., magnetic disk) and/or charge domains (e.g., an array of DRAM cells) composing a bit pattern encoding data acquired from an assay of the invention.

[0124] The invention also provides a method for transmitting assay data that includes generating an electronic signal on an electronic communications device, such as a modem, ISDN terminal adapter, DSL, cable modem, ATM switch, or the like, wherein the signal includes (in native or encrypted format) a bit pattern encoding data from an assay or a database comprising a plurality of assay results obtained by the method of the invention.

[0125] In a preferred embodiment, the invention provides a computer system for comparing a query target to a database containing an array of data structures, such as an assay result obtained by the method of the invention, and ranking database targets based on the degree of identity and gap weight to the target data. A central processor is preferably initialized to load and execute the computer program for alignment and/or comparison of the assay results. Data for a query target is entered into the central processor via an I/O device. Execution of the computer program results in the central processor retrieving the assay data from the data file, which comprises a binary description of an assay result.

[0126] The target data or record and the computer program can be transferred to secondary memory, which is typically random access memory (e.g., DRAM, SRAM, SGRAM, or SDRAM). Targets are ranked according to the degree of correspondence between a selected assay characteristic (e.g., binding to a selected affinity moiety) and the same characteristic of the query target and results are output via an I/O device. For example, a central processor can be a conventional computer (e.g., Intel Pentium, PowerPC, Alpha, PA-8000, SPARC, MIPS 4400, MIPS 10000, VAX, etc.); a program can be a commercial or public domain molecular biology software package (e.g., UWGCG Sequence Analysis Software, Darwin); a data file can be an optical or magnetic disk, a data server, a memory device (e.g., DRAM, SRAM, SGRAM, SDRAM, EPROM, bubble memory, flash memory, etc.); an I/O device can be a terminal comprising a video display and a keyboard, a modem, an ISDN terminal adapter, an Ethernet port, a punched card reader, a magnetic strip reader, or other suitable I/O device.

[0127] The invention also preferably provides the use of a computer system, such as that described above, which comprises: (1) a computer; (2) a stored bit pattern encoding a collection of peptide sequence specificity records obtained by the methods of the invention, which may be stored in the computer; (3) a comparison target, such as a query target; and (4) a program for alignment and comparison, typically with rank-ordering of comparison results on the basis of computed similarity values.

[0128] Characteristics of Bladder Cancer-Associated Proteins

[0129] Bladder cancer proteins of the present invention may be classified as secreted proteins, transmembrane proteins or intracellular proteins. In one embodiment, the bladder cancer protein is an intracellular protein. Intracellular proteins may be found in the cytoplasm and/or in the nucleus. Intracellular proteins are involved in all aspects of cellular function and replication (including, e.g., signaling pathways); aberrant expression of such proteins often results in unregulated or disregulated cellular processes (see, e.g., Alberts, et al. (1994) Molecular Biology of the Cell (3d ed.) Garland. For example, many intracellular proteins have enzymatic activity such as protein kinase activity, protein phosphatase activity, protease activity, nucleotide cyclase activity, polymerase activity and the like. Intracellular proteins also serve as docking proteins that are involved in organizing complexes of proteins, or targeting proteins to various subcellular localizations, and are involved in maintaining the structural integrity of organelles.

[0130] An increasingly appreciated concept in characterizing proteins is the presence in the proteins of one or more structural motifs for which defined functions have been attributed. In addition to the highly conserved sequences found in the enzymatic domain of proteins, highly conserved sequences have been identified in proteins that are involved in protein-protein interaction. For example, Src-homology-2 (SH2) domains bind tyrosine-phosphorylated targets in a sequence dependent manner. PTB domains, which are distinct from SH2 domains, also bind tyrosine phosphorylated targets. SH3 domains bind to proline-rich targets. In addition, PH domains, tetratricopeptide repeats and WD domains to name only a few, have been shown to mediate protein-protein interactions. Some of these may also be involved in binding to phospholipids or other second messengers. As will be appreciated by one of ordinary skill in the art, these motifs can be identified on the basis of amino acid sequence; thus, an analysis of the sequence of proteins may provide insight into both the enzymatic potential of the molecule and/or molecules with which the protein may associate. One useful database is Pfam (protein families), which is a large collection of multiple sequence alignments and hidden Markov models covering many common protein domains. Versions are available via the internet from Washington University in St. Louis, the Sanger Center in England, and the Karolinska Institute in Sweden. See, e.g., Bateman, et al. (2000) Nuc. Acids Res. 28:263-266; Sonnhammer, et al. (1997) Proteins 28:405-420; Bateman, et al. (1999) Nuc. Acids Res. 27:260-262; and Sonnhammer, et al. (1998) Nuc. Acids Res. 26:320-322.

[0131] In another embodiment, the bladder cancer sequences are transmembrane proteins. Transmembrane proteins are molecules that span a phospholipid bilayer of a cell. They may have an intracellular domain, an extracellular domain, or both. The intracellular domains of such proteins may have a number of functions including those already described for intracellular proteins. For example, the intracellular domain may have enzymatic activity and/or may serve as a binding site for additional proteins. Frequently the intracellular domain of transmembrane proteins serves both roles. For example certain receptor tyrosine kinases have both protein kinase activity and SH2 domains. In addition, autophosphorylation of tyrosines on the receptor molecule itself, creates binding sites for additional SH2 domain containing proteins.

[0132] Transmembrane proteins may contain from one to many transmembrane domains. For example, receptor tyrosine kinases, certain cytokine receptors, receptor guanylyl cyclases and receptor serine/threonine protein kinases contain a single transmembrane domain. However, various other proteins including channels and adenylyl cyclases contain numerous transmembrane domains. Many important cell surface receptors such as G protein coupled receptors (GPCRs) are classified as “seven transmembrane domain” proteins, as they contain 7 membrane spanning regions. Characteristics of transmembrane domains include approximately 17 consecutive hydrophobic amino acids that may be followed by charged amino acids. Therefore, upon analysis of the amino acid sequence of a particular protein, the localization and number of transmembrane domains within the protein may be predicted (see, e.g., PSORT web site http://psort.nibb.acjp/). Important transmembrane protein receptors include, but are not limited to the insulin receptor, insulin-like growth factor receptor, human growth hormone receptor, glucose transporters, transferrin receptor, epidermal growth factor receptor, low density lipoprotein receptor, epidermal growth factor receptor, leptin receptor, and interleukin receptors, e.g., IL-1 receptor, IL-2 receptor, etc.

[0133] The extracellular domains of transmembrane proteins are diverse; however, conserved motifs are found repeatedly among various extracellular domains. Conserved structure and/or functions have been ascribed to different extracellular motifs. Many extracellular domains are involved in binding to other molecules. In one aspect, extracellular domains are found on receptors. Factors that bind the receptor domain include circulating ligands, which may be peptides, proteins, or small molecules such as adenosine and the like. For example, growth factors such as EGF, FGF, and PDGF are circulating growth factors that bind to their cognate receptors to initiate a variety of cellular responses. Other factors include cytokines, mitogenic factors, neurotrophic factors and the like. Extracellular domains also bind to cell-associated molecules. In this respect, they mediate cell-cell interactions. Cell-associated ligands can be tethered to the cell, e.g., via a glycosylphosphatidylinositol (GPI) anchor, or may themselves be transmembrane proteins. Extracellular domains also associate with the extracellular matrix and contribute to the maintenance of the cell structure.

[0134] Bladder cancer proteins that are transmembrane are particularly preferred in the present invention as they are readily accessible targets for immunotherapeutics, as are described herein. In addition, as outlined below, transmembrane proteins can be also useful in imaging modalities. Antibodies may be used to label such readily accessible proteins in situ. Alternatively, antibodies can also label intracellular proteins, in which case samples are typically permeablized to provide access to intracellular proteins.

[0135] It will also be appreciated by those in the art that a transmembrane protein can be made soluble by removing transmembrane sequences, e.g., through recombinant methods. Furthermore, transmembrane proteins that have been made soluble can be made to be secreted through recombinant means by adding an appropriate signal sequence.

[0136] In another embodiment, the bladder cancer proteins are secreted proteins; the secretion of which can be either constitutive or regulated. These proteins may have a signal peptide or signal sequence that targets the molecule to the secretory pathway. Secreted proteins are involved in numerous physiological events; e.g., if circulating, they often serve to transmit signals to various other cell types. The secreted protein may function in an autocrine manner (acting on the cell that secreted the factor), a paracrine manner (acting on cells in close proximity to the cell that secreted the factor), an endocrine manner (acting on cells at a distance, e.g, secretion into the blood stream), or exocrine (secretion, e.g., through a duct or to adjacent epithelial surface as sweat glands, sebaceous glands, pancreatic ducts, lacrimal glands, mammary glands, wax producing glands of the ear, etc.). Thus secreted molecules often find use in modulating or altering numerous aspects of physiology. Bladder cancer proteins that are secreted or released proteins are particularly preferred in the present invention as they serve as good targets for diagnostic markers, e.g., for blood, plasma, serum, or urine tests. Those which are enzymes may be antibody or small molecule targets. Others may be useful as vaccine targets, e.g., via CTL mechanisms.

[0137] Use of Bladder Cancer Nucleic Acids

[0138] As described above, bladder cancer sequence is initially identified by substantial nucleic acid and/or amino acid sequence homology or linkage to the bladder cancer sequences outlined herein. Such homology can be based upon the overall nucleic acid or amino acid sequence, and is generally determined as outlined below, using either homology programs or hybridization conditions. Typically, linked sequences on a mRNA are found on the same molecule.

[0139] The bladder cancer nucleic acid sequences of the invention, e.g., the sequences in Tables 1A-13, can be fragments of larger genes, e.g., they are nucleic acid segments. “Genes” in this context includes coding regions, non-coding regions, and mixtures of coding and non-coding regions. Accordingly, as will be appreciated by those in the art, using the sequences provided herein, extended sequences, in either direction, of the bladder cancer genes can be obtained, using techniques well known in the art for cloning either longer sequences or the full length sequences; see Ausubel, et al., supra. Much can be done by informatics and many sequences can be clustered to include multiple sequences corresponding to a single gene, e.g., systems such as UniGene (see, http://www.ncbi.nlm.nih.gov/UniGene/).

[0140] Once a bladder cancer nucleic acid is identified, it can be cloned and, if necessary, its constituent parts recombined to form the entire bladder cancer nucleic acid coding regions or the entire mRNA sequence. Once isolated from its natural source, e.g., contained within a plasmid or other vector or excised therefrom as a linear nucleic acid segment, the recombinant bladder cancer nucleic acid can be further-used as a probe to identify and isolate other bladder cancer nucleic acids, e.g., extended coding regions. It can also be used as a “precursor” nucleic acid to make modified or variant bladder cancer nucleic acids and proteins.

[0141] The bladder cancer nucleic acids of the present invention are used in several ways. In a first embodiment, nucleic acid probes to the bladder cancer nucleic acids are made and attached to biochips to be used in screening and diagnostic methods, as outlined below, or for administration, e.g., for gene therapy, vaccine, and/or antisense/inhibition applications. Alternatively, the bladder cancer nucleic acids that include coding regions of bladder cancer proteins can be put into expression vectors for the expression of bladder cancer proteins, again for screening purposes or for administration to a patient.

[0142] In a preferred embodiment, nucleic acid probes to bladder cancer nucleic acids (both the nucleic acid sequences outlined in the tables and/or the complements thereof) are made. The nucleic acid probes attached to the biochip are designed to be substantially complementary to the bladder cancer nucleic acids, e.g., the target sequence (either the target sequence of the sample or to other probe sequences, e.g., in sandwich assays), such that hybridization of the target sequence and the probes of the present invention occurs. As outlined below, this complementarity need not be perfect; there may be a number of base pair mismatches which will interfere with hybridization between the target sequence and the single stranded nucleic acids of the present invention. However, if the number of mutations is so great that no hybridization can occur under even the least stringent of hybridization conditions, the sequence is not a complementary target sequence. Thus, by “substantially complementary” herein is meant that the probes are sufficiently complementary to the target sequences to hybridize under normal reaction conditions, particularly high stringency conditions, as outlined herein.

[0143] A nucleic acid probe is generally single stranded but can be partially single and partially double stranded. The strandedness of the probe is dictated by the structure, composition, and properties of the target sequence. In general, the nucleic acid probes range from about 8 to about 100 bases long, with from about 10 to about 80 bases being preferred, and from about 30 to about 50 bases being particularly preferred. That is, generally whole genes are not used. In some embodiments, much longer nucleic acids can be used, up to hundreds of bases.

[0144] In a preferred embodiment, more than one probe per sequence is used, with either overlapping probes or probes to different sections of the target being used. That is, two, three, four or more probes, with three being preferred, are used to build in a redundancy for a particular target. The probes can be overlapping (e.g., have some sequence in common), or separate. In some cases, PCR primers may be used to amplify signal for higher sensitivity.

[0145] As will be appreciated by those in the art, nucleic acids can be attached or immobilized to a solid support in a wide variety of ways. By “immobilized” and grammatical equivalents herein is meant the association or binding between the nucleic acid probe and the solid support is sufficient to be stable under the conditions of binding, washing, analysis, and removal as outlined below. The binding can typically be covalent or non-covalent. By “non-covalent binding” and grammatical equivalents herein is meant one or more of electrostatic, hydrophilic, and hydrophobic interactions. Included in non-covalent binding is the covalent attachment of a molecule, such as, streptavidin to the support and the non-covalent binding of the biotinylated probe to the streptavidin. By “covalent binding” and grammatical equivalents herein is meant that the two moieties, the solid support and the probe, are attached by at least one bond, including sigma bonds, pi bonds and coordination bonds. Covalent bonds can be formed directly between the probe and the solid support or can be formed by a cross linker or by inclusion of a specific reactive group on either the solid support or the probe or both molecules. Immobilization may also involve a combination of covalent and non-covalent interactions.

[0146] In general, the probes are attached to the biochip in a wide variety of ways, as will be appreciated by those in the art. As described herein, the nucleic acids can either be synthesized first, with subsequent attachment to the biochip, or can be directly synthesized on the biochip.

[0147] The biochip comprises a suitable solid substrate. By “substrate” or “solid support” or other grammatical equivalents herein is meant a material that can be modified to contain discrete individual sites appropriate for the attachment or association of the nucleic acid probes and is amenable to at least one detection method. As will be appreciated by those in the art, the number of possible substrates are very large, and include, but are not limited to, glass and modified or functionalized glass, plastics (including acrylics, polystyrene and copolymers of styrene and other materials, polypropylene, polyethylene, polybutylene, polyurethanes, TeflonJ, etc.), polysaccharides, nylon or nitrocellulose, resins, silica or silica-based materials including silicon and modified silicon, carbon, metals, inorganic glasses, plastics, etc. In general, the substrates allow optical detection and do not appreciably fluoresce. See WO 00/55627.

[0148] Generally the substrate is planar, although as will be appreciated by those in the art, other configurations of substrates may be used as well. For example, the probes may be placed on the inside surface of a tube, for flow-through sample analysis to minimize sample volume. Similarly, the substrate may be flexible, such as a flexible foam, including closed cell foams made of particular plastics.

[0149] In a preferred embodiment, the surface of the biochip and the probe may be derivatized with chemical functional groups for subsequent attachment of the two. Thus, e.g., the biochip is derivatized with a chemical functional group including, but not limited to, amino groups, carboxy groups, oxo groups and thiol groups, with amino groups being particularly preferred. Using these functional groups, the probes can be attached using functional groups on the probes. For example, nucleic acids containing amino groups can be attached to surfaces comprising amino groups, e.g., using linkers as are known in the art; e.g., homo-or hetero-bifunctional linkers as are well known (see 1994 Pierce Chemical Company catalog, technical section on cross-linkers, pages 155-200). In addition, in some cases, additional linkers, such as alkyl groups (including substituted and heteroalkyl groups) may be used.

[0150] In this embodiment, oligonucleotides are synthesized as is known in the art, and then attached to the surface of the solid support. As will be appreciated by those skilled in the art, either the 5′ or 3′ terminus may be attached to the solid support, or attachment may be via an internal nucleoside.

[0151] In another embodiment, the immobilization to the solid support may be very strong, yet non-covalent. For example, biotinylated oligonucleotides can be made, which bind to surfaces covalently coated with streptavidin, resulting in attachment.

[0152] Alternatively, the oligonucleotides may be synthesized on the surface, as is known in the art. For example, photoactivation techniques utilizing photopolymerization compounds and techniques are used. In a preferred embodiment, the nucleic acids can be synthesized in situ, using well known photolithographic techniques, such as those described in WO 95/25116; WO 95/35505; U.S. Pat. Nos. 5,700,637 and 5,445,934; and references cited within, all of which are expressly incorporated by reference; these methods of attachment form the basis of the Affimetrix GeneChip™ technology.

[0153] Often, amplification-based assays are performed to measure the expression level of bladder cancer-associated sequences. These assays are typically performed in conjunction with reverse transcription. In such assays, a bladder cancer-associated nucleic acid sequence acts as a template in an amplification reaction (e.g., Polymerase Chain Reaction, or PCR). In a quantitative amplification, the amount of amplification product will be proportional to the amount of template in the original sample. Comparison to appropriate controls provides a measure of the amount of bladder cancer-associated RNA. Methods of quantitative amplification are well known to those of skill in the art. Detailed protocols for quantitative PCR are provided, e.g., in Innis, et al. (1990) PCR Protocols: A Guide to Methods and Applications Academic Press.

[0154] In some embodiments, a TaqMan based assay is used to measure expression. TaqMan based assays use a fluorogenic oligonucleotide probe that contains a 5′ fluorescent dye and a 3′ quenching agent. The probe hybridizes to a PCR product, but cannot itself be extended due to a blocking agent at the 3′ end. When the PCR product is amplified in subsequent cycles, the 5′ nuclease activity of the polymerase, e.g., AmpliTaq, results in the cleavage of the TaqMan probe. This cleavage separates the 5′ fluorescent dye and the 3′ quenching agent, thereby resulting in an increase in fluorescence as a function of amplification. See, e.g., literature provided by Perkin-Elmer, e.g., www2.perkin-elmer.com.

[0155] Other suitable amplification methods include, but are not limited to, ligase chain reaction (LCR) (see Wu and Wallace (1989) Genomics 4:560-569; Landegren, et al. (1988) Science 241:1077-1080; and Barringer, et al. (1990) Gene 89:117-122), transcription amplification (Kwoh, et al. (1989) Proc. Nat'l Acad. Sci. USA 86:1173-1177), self-sustained sequence replication (Guatelli, et al. (1990) Proc. Nat'l Acad. Sci. USA 87:1874-1878), dot PCR, and linker adapter PCR, etc.

[0156] Expression of Bladder Cancer Proteins from Nucleic Acids

[0157] In a preferred embodiment, bladder cancer nucleic acids, e.g., encoding bladder cancer proteins, are used to make a variety of expression vectors to express bladder cancer proteins which can then be used in screening assays, as described below. Expression vectors and recombinant DNA technology are well known to those of skill in the art (see, e.g., Ausubel, supra, and Fernandez and Hoeffler (eds. 1999) Gene Expression Systems Academic Press) and are used to express proteins. The expression vectors may be either self-replicating extrachromosomal vectors or vectors which integrate into a host genome. Generally, these expression vectors include transcriptional and translational regulatory nucleic acid operably linked to the nucleic acid encoding the bladder cancer protein. The term “control sequences” refers to DNA sequences used for the expression of an operably linked coding sequence in a particular host organism. Control sequences that are suitable for prokaryotes, e.g., include a promoter, optionally an operator sequence, and a ribosome binding site. Eukaryotic cells are known to utilize promoters, polyadenylation signals, and enhancers.

[0158] Nucleic acid is “operably linked” when it is placed into a functional relationship with another nucleic acid sequence. For example, DNA for a presequence or secretory leader is operably linked to DNA for a polypeptide if it is expressed as a preprotein that participates in the secretion of the polypeptide; a promoter or enhancer is operably linked to a coding sequence if it affects the transcription of the sequence; a ribosome binding site is operably linked to a coding sequence if it is positioned so as to facilitate translation; two sequences may be operably linked if they are physically linked on a single polynucleotide. Generally, “operably linked” means that the DNA sequences being linked are contiguous, and, in the case of a secretory leader, contiguous and in reading phase. However, enhancers do not have to be contiguous. Linking is typically accomplished by ligation at convenient restriction sites. If such sites do not exist, synthetic oligonucleotide adaptors or linkers are used in accordance with conventional practice. Transcriptional and translational regulatory nucleic acid will generally be appropriate to the host cell used to express the bladder cancer protein. Numerous types of appropriate expression vectors, and suitable regulatory sequences are known in the art for a variety of host cells.

[0159] In general, transcriptional and translational regulatory sequences may include, but are not limited to, promoter sequences, ribosomal binding sites, transcriptional start and stop sequences, translational start and stop sequences, and enhancer or activator sequences. In a preferred embodiment, the regulatory sequences include a promoter and transcriptional start and stop sequences.

[0160] Promoter sequences encode either constitutive or inducible promoters. The promoters may be either naturally occurring promoters or hybrid promoters. Hybrid promoters, which combine elements of more than one promoter, are useful in the present invention.

[0161] In addition, an expression vector may comprise additional elements. The expression vector may have two replication systems, thus allowing it to be maintained in two organisms, e.g., in mammalian or insect cells for expression and in a procaryotic host for cloning and replication. For integrating expression vectors, the expression vector may contain at least one sequence homologous to the host cell genome, and preferably two homologous sequences which flank the expression construct. The integrating vector may be directed to a specific locus in the host cell by selecting the appropriate homologous sequence for inclusion in the vector. Constructs for integrating vectors are well known (e.g., Fernandez and Hoeffler, supra).

[0162] In addition, in a preferred embodiment, the expression vector contains a selectable marker gene to allow the selection of transformed host cells. Selection genes are well known in the art and will vary with the host cell used.

[0163] The bladder cancer proteins of the present invention may be produced by culturing a host cell transformed with an expression vector under the appropriate conditions to induce or cause expression of the bladder cancer protein. Conditions appropriate for bladder cancer protein expression will vary with the choice of the expression vector and the host cell, and will be easily ascertained by one skilled in the art through routine experimentation or optimization. For example, the use of constitutive promoters in the expression vector will typically require optimizing the growth and proliferation of the host cell, while the use of an inducible promoter typically requires identifying the appropriate growth conditions for induction. In addition, in some embodiments, the timing of the harvest is important. For example, the baculoviral systems used in insect cell expression are lytic viruses, and harvest time selection can be crucial for product yield.

[0164] Appropriate host cells include yeast, bacteria, archaebacteria, fungi, insect, and animal cells, including mammalian cells. Of particular interest are Saccharomyces cerevisiae and other yeasts, E. coli, Bacillus subtilis, Sf9 cells, C129 cells, 293 cells, Neurospora, BHK, CHO, COS, HeLa cells, HUVEC (human umbilical vein endothelial cells), THPI cells (a macrophage cell line) and various other human cells and cell lines.

[0165] In a preferred embodiment, the bladder cancer proteins are expressed in mammalian cells. Mammalian expression systems include retroviral and adenoviral systems. Retroviral vector systems are described in PCT/US97/01019 and PCT/US97/01048. Of particular use are promoters from mammalian viral genes, since viral genes are often highly expressed and have a broad host range. Examples include the SV40 early promoter, mouse mammary tumor virus LTR promoter, adenovirus major late promoter, herpes simplex virus promoter, and the CMV promoter (see, e.g., Fernandez and Hoeffler, supra). Typically, transcription termination and polyadenylation sequences recognized by mammalian cells are regulatory regions located 3′to the translation stop codon and thus, together with the promoter elements, flank the coding sequence. Examples of transcription terminator and polyadenlyation signals include those derived from SV40.

[0166] Methods of introducing exogenous nucleic acid into mammalian and other hosts are well known, and will vary with the host cell used. Techniques include dextran-mediated transfection, calcium phosphate precipitation, polybrene mediated transfection, protoplast fusion, electroporation, viral infection, encapsulation of the polynucleotide(s) in liposomes, and direct microinjection of the DNA into nuclei.

[0167] In another embodiment, bladder cancer proteins are expressed in bacterial systems. Promoters from bacteriophage may also be used. Synthetic promoters and hybrid promoters are also useful; e.g., the tac promoter is a hybrid of the trp and lac promoter sequences. A bacterial promoter can include naturally occurring promoters of non-bacterial origin that have the ability to bind bacterial RNA polymerase and initiate transcription. Often an efficient ribosome binding site is desirable. The expression vector may include a signal peptide sequence that provides for secretion of the bladder cancer protein. The protein is either secreted into the growth media (gram-positive bacteria) or into the periplasmic space, located between the inner and outer membrane of the cell (gram-negative bacteria). The bacterial expression vector may include a selectable marker gene to allow for the selection of bacterial strains that have been transformed. Suitable selection genes include genes which render the bacteria resistant to drugs, e.g., ampicillin, chloramphenicol, erythromycin, kanamycin, neomycin, and tetracycline, or biosynthetic genes, e.g., those in the histidine, tryptophan, and leucine biosynthetic pathways. These components are assembled into expression vectors. Expression vectors for bacteria include vectors for Bacillus subtilis, E. coli, Streptococcus cremoris, and Streptococcus lividans, among others (e.g., Fernandez and Hoeffler, supra). The bacterial expression vectors are transformed into bacterial host cells using, e.g., calcium chloride treatment, electroporation, and other methods.

[0168] Bladder cancer proteins can also be produced in insect cells. See, e.g., Miller, et al. (1997) Baculovirus Expression Vectors: A Laboratory Manual Oxford Books; ISBN: 0716770172; and Makrides (1999) Prot. Expr. Purif. 17:183-202.

[0169] Bladder cancer protein may be produced in yeast cells. Yeast expression systems exist with expression vectors for Saccharomyces cerevisiae, Candida albicans and C. maltosa, Hansenula polymorpha, Kluyveromyces fragilis and K. lactis, Pichia guillerimondii and P. pastoris, Schizosaccharomyces pombe, and Yarrowia lipolytica. See, e.g., Jones, et al. (eds. 1993) The Molecular and Cellular Biology of the Yeast Saccharomyces: Gene Expression CSH Press; ISBN: 0879693657.

[0170] The bladder cancer protein may also be made as a fusion protein, using techniques well known in the art. Thus, e.g., for the creation of monoclonal antibodies, if the desired epitope is small, the bladder cancer protein may be fused to a carrier protein to form an immunogen. Alternatively, the bladder cancer protein may be made as a fusion protein to increase expression, or for other reasons. For example, when the bladder cancer protein is a bladder cancer peptide, the nucleic acid encoding the peptide may be linked to other nucleic acid for expression or purification purposes.

[0171] The bladder cancer protein is typically purified or isolated after expression. Bladder cancer proteins may be isolated or purified in a variety of ways, depending on what other components are present in the sample. Standard purification methods include electrophoretic, molecular, immunological, and chromatographic techniques, including ion exchange, hydrophobic, affinity, reverse-phase HPLC chromatography, and chromatofocusing. The bladder cancer protein may be purified using a standard anti-bladder cancer protein antibody affinity column. Ultrafiltration and diafiltration techniques, in conjunction with protein concentration, are also useful. For general guidance in suitable purification techniques, see, e.g., Scopes (1982) Protein Purification Springer-Verlag. The degree of purification necessary will vary depending on the use of the bladder cancer protein. In some instances no purification will be necessary, which may depend on the intended use.

[0172] Once expressed and purified, if necessary, the bladder cancer proteins and nucleic acids are useful in a number of applications. They may be used as immunoselection reagents, as vaccine reagents, as screening agents, etc.

[0173] Variants of Bladder Cancer Proteins

[0174] In one embodiment, the bladder cancer proteins are derivative or variant bladder cancer proteins as compared to the wild-type sequence. That is, as outlined more fully below, the derivative bladder cancer peptide will often contain at least one amino acid substitution, deletion, or insertion, with amino acid substitutions being particularly preferred. The amino acid substitution, insertion, or deletion may occur at most residues within the bladder cancer peptide.

[0175] Certain embodiments of bladder cancer proteins of the present invention are amino acid sequence variants. These variants typically fall into one or more of three classes: substitutional, insertional, or deletional variants. These variants ordinarily are prepared by site specific mutagenesis of nucleotides in the DNA encoding the bladder cancer protein, using cassette or PCR, mutagenesis, or other techniques well known in the art, to produce DNA encoding the variant, and thereafter expressing the DNA in recombinant cell culture as outlined above. However, variant bladder cancer protein fragments having up to about 100-150 residues may be prepared by in vitro synthesis using established techniques. Amino acid sequence variants are often characterized by the predetermined nature of the variation, a feature that sets them apart from naturally occurring allelic or interspecies variation of the bladder cancer protein amino acid sequence. The variants typically exhibit the same qualitative biological activity as the naturally occurring analogue, although variants can also be selected which have modified characteristics as will be more fully outlined below.

[0176] While the site or region for introducing an amino acid sequence variation is often predetermined, the mutation per se need not be predetermined. To optimize the performance of a mutation at a given site, random mutagenesis may be conducted at the target codon or region and the expressed bladder cancer variants screened for the optimal combination of desired activities. Techniques for making substitution mutations at predetermined sites in DNA having a known sequence are well known, e.g., M13 primer mutagenesis and PCR mutagenesis. Screening of the mutants is performed using assays of bladder cancer protein activities.

[0177] Amino acid substitutions are typically of single residues; insertions usually will be on the order of from about 1 to 20 amino acids, although considerably larger insertions may be tolerated. Deletions range from about 1-20 residues, although in some cases deletions may be much larger.

[0178] Substitutions, deletions, insertions, or combinations thereof may be used to arrive at a final derivative. Generally these changes are done on a few amino acids to minimize the alteration of the molecule. However, larger changes may be tolerated in certain circumstances. When small alterations in the characteristics of the bladder cancer protein are desired, substitutions are generally made in accordance with the amino acid substitution relationships provided in the definition section.

[0179] The variants typically exhibit the same qualitative biological activity and elicit the same immune response as the naturally-occurring analog, although variants also are selected to modify the characteristics of the bladder cancer proteins as needed. Alternatively, the variant may be designed such that the biological activity of the bladder cancer protein is altered. For example, glycosylation sites may be altered or removed.

[0180] Substantial changes in function or immunological identity are made by selecting substitutions that are less conservative than those described above. Substitutions may be made which more significantly affect: the structure of the polypeptide backbone in the area of the alteration, e.g., the alpha-helical or beta-sheet structure; the charge or hydrophobicity of the molecule at the target site; or the bulk of the side chain. Substitutions which are expected to produce the greatest changes in the polypeptide's properties are those in which (a) a hydrophilic residue, e.g., serine or threonine is substituted for (or by) a hydrophobic residue, e.g., leucine, isoleucine, phenylalanine, valine, or alanine; (b) a cysteine or proline is substituted for (or by) another residue; (c) a residue having an electropositive side chain, e.g., lysine, arginine, or histidine, is substituted for (or by) an electronegative residue, e.g., glutamic acid or aspartic acid; or (d) a residue having a bulky side chain, e.g., phenylalanine, is substituted for (or by) one not having a side chain, e.g., glycine.

[0181] Covalent modifications of bladder cancer polypeptides are included within the scope of this invention. One type of covalent modification includes reacting targeted amino acid residues of a bladder cancer polypeptide with an organic derivatizing agent that is capable of reacting with selected side chains or the N-or C-terminal residues of a bladder cancer polypeptide. Derivatization with bifunctional agents is useful, e.g., for crosslinking bladder cancer polypeptides to a water-insoluble support matrix or surface for use in the method for purifying anti-bladder cancer polypeptide antibodies or screening assays. Commonly used crosslinking agents include, e.g., 1,1-bis(diazoacetyl)-2-phenylethane, glutaraldehyde, Nhydroxysuccinimide esters, e.g., esters with 4-azidosalicylic acid, homobifunctional imidoesters, including disuccinimidyl esters such as 3,3′-dithiobis(succinimidylpropionate), bifunctional malcimides such as bis-N-malcimido-1,8-octane and agents such as methyl-3-((p-azidophenyl)dithio)propioimidate.

[0182] Other modifications include deamidation of glutaminyl and asparaginyl residues to the corresponding glutamic and aspartic residues, respectively, hydroxylation of proline and lysine, phosphorylation of hydroxyl groups of serine, threonine or tyrosine residues, methylation of the amino groups of the lysine, arginine, and histidine side chains (pp. 79-86, Creighton (1984) Proteins: Structure and Molecular Properties Freeman), acetylation of the N-terminal amine, and amidation of a C-terminal carboxyl group.

[0183] Another type of covalent modification of the bladder cancer polypeptide included within the scope of this invention comprises altering the native glycosylation pattern of the polypeptide. “Altering the native glycosylation pattern” is intended for purposes herein to mean deleting one or more carbohydrate moieties found in native sequence bladder cancer polypeptide, and/or adding one or more glycosylation sites that are not present in the native sequence bladder cancer polypeptide. Glycosylation patterns can be altered in many ways. For example the use of different cell types to express bladder cancer-associated sequences can result in different glycosylation patterns.

[0184] Addition of glycosylation sites to bladder cancer polypeptides may also be accomplished by altering the amino acid sequence thereof. The alteration may be made, e.g., by the addition of, or substitution by, one or more serine or threonine residues to the native sequence bladder cancer polypeptide (for O-linked glycosylation sites). The bladder cancer amino acid sequence may optionally be altered through changes at the DNA level, particularly by mutating the DNA encoding the bladder cancer polypeptide at preselected bases such that codons are generated that will translate into the desired amino acids.

[0185] Another means of increasing the number of carbohydrate moieties on the bladder cancer polypeptide is by chemical or enzymatic coupling of glycosides to the polypeptide. Such methods are described in the art, e.g., in WO 87/05330, and pp. 259-306 in Aplin and Wriston (1981) CRC Crit. Rev. Biochem.

[0186] Removal of carbohydrate moieties present on the bladder cancer polypeptide may be accomplished chemically or enzymatically or by mutational substitution of codons encoding amino acid residues that serve as targets for glycosylation. Chemical deglycosylation techniques are known in the art. See, e.g., Hakimuddin, et al. (1987) Arch. Biochem. Biophys. 259:52-57; and Edge, et al. (1981) Anal. Biochem. 118:131-137. Enzymatic cleavage of carbohydrate moieties on polypeptides can be achieved by the use of a variety of endo-and exo-glycosidases. See, e.g., Thotakura, et al. (1987) Meth. Enzymol. 138:350-359.

[0187] Another type of covalent modification of bladder cancer comprises linking the bladder cancer polypeptide to one of a variety of nonproteinaceous polymers, e.g., polyethylene glycol, polypropylene glycol, or polyoxyalkylenes, in the manner set forth in U.S. Pat. Nos. 4,640,835; 4,496,689; 4,301,144; 4,670,417; 4,791,192; or 4,179,337.

[0188] Bladder cancer polypeptides of the present invention may also be modified to form chimeric molecules comprising a bladder cancer polypeptide fused to a heterologous polypeptide or amino acid sequence. In one embodiment, a chimeric molecule comprises a fusion of a bladder cancer polypeptide with an epitope tag. The epitope tag is generally placed at the amino-or carboxyl-terminus of the bladder cancer polypeptide. The presence of such epitope-tagged forms of a bladder cancer polypeptide can be detected using an antibody against the tag polypeptide. Also, provision of the epitope tag enables the bladder cancer polypeptide to be readily purified by affinity purification using an anti-tag antibody or another type of affinity matrix that binds to the epitope tag. In an alternative embodiment, the chimeric molecule may comprise a fusion of a bladder cancer polypeptide with an immunoglobulin or a particular region of an immunoglobulin. For a bivalent form of the chimeric molecule, such a fusion could be to the Fc region of an IgG molecule.

[0189] Various tag polypeptides and their respective antibodies are well known in the art. Examples include poly-histidine (poly-his) or poly-histidine-glycine (poly-his-gly) tags; HIS6 and metal chelation tags, the flu HA tag polypeptide and its antibody 12CA5 (Field, et al. (1988) Mol. Cell. Biol. 8:2159-2165); the c-myc tag and the 8F9, 3C7, 6E10, G4, B7, and 9E10 antibodies thereto (Evan, et al. (1985) Molecular and Cellular Biology 5:3610-3616); and the Herpes Simplex virus glycoprotein D (gD) tag and its antibody (Paborsky, et al. (1990) Protein Engineering 3:547-553). Other tag polypeptides include the Flag-peptide (Hopp, et al. (1988) BioTechnology 6:1204-1210); the KT3 epitope peptide (Martin, et al. (1992) Science 255:192-194); tubulin epitope peptide (Skinner, et al. (1991) J. Biol. Chem. 266:15163-15166); and the T7 gene 10 protein peptide tag (Lutz-Freyermuth, et al. (1990) Proc. Nat'l Acad. Sci. USA 87:6393-6397).

[0190] Also included are other bladder cancer proteins of the bladder cancer family, and bladder cancer proteins from other organisms, which are cloned and expressed as outlined below. Thus, probe or degenerate polymerase chain reaction (PCR) primer sequences may be used to find other related bladder cancer proteins from humans or other organisms. As will be appreciated by those in the art, particularly useful probe and/or PCR primer sequences include the unique areas of the bladder cancer nucleic acid sequence. Preferred PCR primers are from about 15-35 nucleotides in length, with from about 20-30 being preferred, and may contain inosine as needed. The conditions for the PCR reaction are well known. See, e.g., Innis (1990) PCR Protocols, supra.

[0191] Antibodies to Bladder Cancer Proteins

[0192] In a preferred embodiment, when the bladder cancer protein is to be used to generate antibodies, e.g., for immunotherapy or immunodiagnosis, the bladder cancer protein should share at least one epitope or determinant with the full length protein. By “epitope” or “determinant” herein is typically meant a portion of a protein which will generate and/or bind an antibody or T-cell receptor in the context of MHC. Thus, in most instances, antibodies made to a smaller bladder cancer protein will be able to bind to the full-length protein, particularly linear epitopes. In a preferred embodiment, the epitope is unique; that is, antibodies generated to a unique epitope show little or no cross-reactivity.

[0193] Methods of preparing polyclonal antibodies are known (see, e.g., Coligan, supra; and Harlow and Lane, supra). Polyclonal antibodies can be raised in a mammal, e.g., by one or more injections of an immunizing agent and, if desired, an adjuvant. Typically, the immunizing agent and/or adjuvant will be injected in the mammal by multiple subcutaneous or intraperitoneal injections. The immunizing agent may include a protein encoded by a nucleic acid of the tables or fragment thereof or a fusion protein thereof. It may be useful to conjugate the immunizing agent to a protein known to be immunogenic in the mammal being immunized. Examples of such immunogenic proteins include but are not limited to keyhole limpet hemocyanin, serum albumin, bovine thyroglobulin, and soybean trypsin inhibitor. Examples of adjuvants which may be employed include Freund's complete adjuvant and MPL-TDM adjuvant (monophosphoryl Lipid A, synthetic trehalose dicorynomycolate). The immunization protocol may be selected as appropriate.

[0194] The antibodies may be monoclonal antibodies. Monoclonal antibodies may be prepared using hybridoma methods, such as those described by Kohler and Milstein (1975) Nature 256:495-497. In a hybridoma method, a mouse, hamster, or other appropriate host animal, is typically immunized with an immunizing agent to elicit lymphocytes that produce or are capable of producing antibodies that will specifically bind to the immunizing agent. Alternatively, the lymphocytes may be immunized in vitro. The immunizing agent will typically include a polypeptide encoded by a nucleic acid of Tables 1A-13 or fragment thereof, or a fusion protein thereof. Generally, either peripheral blood lymphocytes (“PBLs”) are used if cells of human origin are desired, or spleen cells or lymph node cells are used if non-human mammalian sources are desired. The lymphocytes are then fused with an immortalized cell line using a suitable fusing agent, such as polyethylene glycol, to form a hybridoma cell (pp. 59-103, Goding (1986) Monoclonal Antibodies: Principles and Practice Academic Press). Immortalized cell lines are usually transformed mammalian cells, particularly myeloma cells of rodent, bovine and human origin. Usually, rat or mouse myeloma cell lines are employed. The hybridoma cells may be cultured in a suitable culture medium that preferably contains one or more substances that inhibit the growth or survival of the unfused, immortalized cells. For example, if the parental cells lack the enzyme hypoxanthine guanine phosphoribosyl transferase (HGPRT or HPRT), the culture medium for the hybridomas typically will include hypoxanthine, aminopterin, and thymidine (“HAT medium”), which substances prevent the growth of HGPRT-deficient cells.

[0195] In one embodiment, the antibodies are bispecific antibodies. Bispecific antibodies are typically monoclonal, preferably human or humanized, antibodies that have binding specificities for at least two different antigens or that have binding specificities for two epitopes on the same antigen. In one embodiment, one of the binding specificities is for a protein encoded by a nucleic acid Tables 1A-13 or a fragment thereof, the other one is for another antigen, and preferably for a cell-surface protein or receptor or receptor subunit, preferably one that is tumor specific. Alternatively, tetramer-type technology may create multivalent reagents.

[0196] In a preferred embodiment, the antibodies to bladder cancer protein are capable of reducing or eliminating a biological function of a bladder cancer protein, as is described below. That is, the addition of anti-bladder cancer protein antibodies (either polyclonal or preferably monoclonal) to bladder cancer tissue (or cells containing bladder cancer) may reduce or eliminate the bladder cancer. Generally, at least about 25% decrease in activity, growth, size, or the like is preferred, with at least about 50% being particularly preferred, and about a 95-100% decrease being especially preferred.

[0197] In a preferred embodiment the antibodies to the bladder cancer proteins are humanized antibodies (e.g., Xenerex Biosciences; Medarex, Inc.; Abgenix, Inc.; Protein Design Labs, Inc.) Humanized forms of non-human (e.g., murine) antibodies are chimeric molecules of immunoglobulins, immunoglobulin chains or fragments thereof (such as Fv, Fab, Fab′, F(ab′)₂ or other antigen-binding subsequences of antibodies) which contain minimal sequence derived from non-human immunoglobulin. Humanized antibodies include human immunoglobulins (recipient antibody) in which residues from a complementary determining region (CDR) of the recipient are replaced by residues from a CDR of a non-human species (donor antibody) such as mouse, rat, or rabbit having the desired specificity, affinity and capacity. In some instances, Fv framework residues of the human immunoglobulin are replaced by corresponding non-human residues. Humanized antibodies may also comprise residues which are found neither in the recipient antibody nor in the imported CDR or framework sequences. In general, a humanized antibody will comprise substantially all of at least one, and typically two, variable domains, in which all or substantially all of the CDR regions correspond to those of a non-human immunoglobulin and all or substantially all of the framework (FR) regions are those of a human immunoglobulin consensus sequence. The humanized antibody optimally also will comprise at least a portion of an immunoglobulin constant region (Fe), typically that of a human immunoglobulin. See Jones, et al. (1986) Nature 321:522-525; Riechmann, et al. (1988) Nature 332:323-329; and Presta (1992) Curr. Op. Struct. Biol. 2:593-596. Humanization can be performed, e.g., following the method of Winter and co-workers (see Jones, et al. (1986) Nature 321:522-525; Riechmann, et al. (1988) Nature 332:323-327; Verhoeyen, et al. (1988) Science 239:1534-1536), by substituting rodent CDRs or CDR sequences for the corresponding sequences of a human antibody. Accordingly, such humanized antibodies are chimeric antibodies (U.S. Pat. No. 4,816,567), wherein substantially less than an intact human variable domain has been substituted by the corresponding sequence from a non-human species.

[0198] Human antibodies can also be produced using various techniques known in the art, including phage display libraries (Hoogenboom and Winter (1991) J. Mol. Biol. 227:381-388; Marks, et al. (1991) J. Mol. Biol. 222:581-597) or of human monoclonal antibodies (e.g., p. 77, Cole, et al. in Reisfeld and Sell (1985) Monoclonal Antibodies and Cancer Therapy Liss; and Boemer, et al. (1991) J. Imnmunol. 147:86-95). Similarly, human antibodies can be made by introducing of human immunoglobulin loci into transgenic animals, e.g., mice in which the endogenous immunoglobulin genes have been partially or completely inactivated. Upon challenge, human antibody production is observed, which closely resembles that seen in humans in all respects, including gene rearrangement, assembly, and antibody repertoire. This approach is described, e.g., in U.S. Pat. Nos. 5,545,807; 5,545,806; 5,569,825; 5,625,126; 5,633,425; 5,661,016, and Marks, et al. (1992) Bio/Technology 10:779-783; Lonberg, et al. (1994) Nature 368:856-859; Morrison (1994) Nature 368:812-13; Neuberger (1996) Nature Biotechnology 14:826 commenting on Fishwild, et al. (1996) Nature Biotechnology 14:845-51; and Lonberg and Huszar (1995) Intern. Rev. Immunol. 13:65-93.

[0199] By immunotherapy is meant treatment of bladder cancer with an antibody raised against bladder cancer proteins. As used herein, immunotherapy can be passive or active. Passive immunotherapy as defined herein is the passive transfer of antibody to a recipient (patient), which may be used to target a label or toxin. Active immunization is the induction of antibody and/or T-cell responses in a recipient (patient). Induction of an immune response is the result of providing the recipient with an antigen to which antibodies are raised. As appreciated by one of ordinary skill in the art, the antigen may be provided by injecting a polypeptide against which antibodies are desired to be raised into a recipient, or contacting the recipient with a nucleic acid capable of expressing the antigen and under conditions for expression of the antigen, leading to an immune response.

[0200] In a preferred embodiment the bladder cancer proteins against which antibodies are raised are secreted proteins as described above. Without being bound by theory, antibodies used for treatment, bind and prevent the secreted protein from binding to its receptor, thereby inactivating the secreted bladder cancer protein.

[0201] In another preferred embodiment, the bladder cancer protein to which antibodies are raised is a transmembrane protein. Without being bound by theory, antibodies used for treatment, bind the extracellular domain of the bladder cancer protein and prevent it from binding to other proteins, such as circulating ligands or cell-associated molecules. The antibody may cause down-regulation of the transmembrane bladder cancer protein. As will be appreciated by one of ordinary skill in the art, the antibody may be a competitive, noncompetitive or uncompetitive inhibitor of protein binding to the extracellular domain of the bladder cancer protein. The antibody is also an antagonist of the bladder cancer protein. Further, the antibody prevents activation of the transmembrane bladder cancer protein. In one aspect, when the antibody prevents the binding of other molecules to the bladder cancer protein, the antibody prevents growth of the cell. The antibody may also be used to target or sensitize the cell to cytotoxic agents, including, but not limited to TNF-α, TNF-β, IL-1, INF-γ and IL-2, or chemotherapeutic agents including 5FU, vinblastine, actinomycin D, cisplatin, methotrexate, and the like. In some instances the antibody belongs to a sub-type that activates serum complement when complexed with the transmembrane protein thereby mediating cytotoxicity or antigen-dependent cytotoxicity (ADCC). Thus, bladder cancer is treated by administering to a patient antibodies directed against the transmembrane bladder cancer protein. Antibody-labeling may activate a co-toxin, localize a toxin payload, or otherwise provide means to locally ablate cells.

[0202] In another preferred embodiment, the antibody is conjugated to an effector moiety. The effector moiety can be a number of molecules, including labelling moieties such as radioactive labels or fluorescent labels, or can be a therapeutic moiety. In one aspect the therapeutic moiety is a smallmolecule that modulates the activity of the bladder cancer protein. In another aspect the therapeutic moiety modulates the activity of molecules associated with or in close proximity to the bladder cancer protein. The therapeutic moiety may inhibit enzymatic activity such as protease or collagenase or protein kinase activity associated with bladder cancer.

[0203] In a preferred embodiment, the therapeutic moiety can also be a cytotoxic agent. In this method, targeting the cytotoxic agent to bladder cancer tissue or cells, results in a reduction in the number of afflicted cells, thereby reducing symptoms associated with bladder cancer. Cytotoxic agents are numerous and varied and include, but are not limited to, cytotoxic drugs or toxins or active fragments of such toxins. Suitable toxins and their corresponding fragments include diphtheria A chain, exotoxin A chain, ricin A chain, abrin A chain, curcin, crotin, phenomycin, enomycin, and the like. Cytotoxic agents also include radiochemicals made by conjugating radioisotopes to antibodies raised against bladder cancer proteins, or binding of a radionuclide to a chelating agent that has been covalently attached to the antibody. Targeting the therapeutic moiety to transmembrane bladder cancer proteins not only serves to increase the local concentration of therapeutic moiety in the bladder cancer afflicted area, but also serves to reduce deleterious side effects that may be associated with the therapeutic moiety.

[0204] In another preferred embodiment, the bladder cancer protein against which the antibodies are raised is an intracellular protein. In this case, the antibody may be conjugated to a protein which facilitates entry into the cell. In one case, the antibody enters the cell by endocytosis. In another embodiment, a nucleic acid encoding the antibody is administered to the individual or cell. Moreover, wherein the bladder cancer protein can be targeted within a cell, e.g., the nucleus, an antibody thereto contains a signal for that target localization, e.g., a nuclear localization signal.

[0205] The bladder cancer antibodies of the invention specifically bind to bladder cancer proteins. By “specifically bind” herein is meant that the antibodies bind to the protein with a K_(d) of at least about 0.1 mM, more usually at least about 1 μM, preferably at least about 0.1 μM or better, and most preferably, 0.01 μM or better. Selectivity of binding is also important.

[0206] Detection of Bladder Cancer Sequence for Diagnostic and Therapeutic Applications

[0207] In one aspect, the RNA expression levels of genes are determined for different cellular states in the bladder cancer phenotype. Expression levels of genes in normal tissue (e.g., not experiencing bladder cancer) and in bladder cancer tissue (and in some cases, for varying severities of bladder cancer that relate to prognosis, as outlined below), or in non-malignant disease, are evaluated to provide expression profiles. An expression profile of a particular cell state or point of development is essentially a “fingerprint” of the state. While two states may have a particular gene similarly expressed, the evaluation of a number of genes simultaneously allows the generation of a gene expression profile that is reflective of the state of the cell. By comparing expression profiles of cells in different states, information regarding which genes are important (including both up- and down-regulation of genes) in each of these states is obtained. Then, diagnosis may be performed or confirmed to determine whether a tissue sample has the gene expression profile of normal or cancerous tissue. This will provide for molecular diagnosis of related conditions.

[0208] “Differential expression,” or grammatical equivalents as used herein, refers to qualitative or quantitative differences in the temporal and/or cellular gene expression patterns within and among cells and tissue. Thus, a differentially expressed gene can qualitatively have its expression altered, including an activation or inactivation, in, e.g., normal versus bladder cancer tissue. Genes may be turned on or turned off in a particular state, relative to another state thus permitting comparison of two or more states. A qualitatively regulated gene will exhibit an expression pattern within a state or cell type which is detectable by standard techniques. Some genes will be expressed in one state or cell type, but not in both. Alternatively, the difference in expression may be quantitative, e.g., in that expression is increased or decreased; e.g., gene expression is either upregulated, resulting in an increased amount of transcript, or downregulated, resulting in a decreased amount of transcript. The degree to which expression differs need only be large enough to quantify via standard characterization techniques as outlined below, such as by use of Affymetrix GeneChip™ expression arrays. See Lockhart (1996) Nature Biotechnology 14:1675-1680. Other techniques include, but are not limited to, quantitative reverse transcriptase PCR, northern analysis and RNase protection. As outlined above, preferably the change in expression (e.g., upregulation or downregulation) is at least about 50%, more preferably at least about 100%, more preferably at least about 150%, more preferably at least about 200%, with from about 300-1000% being especially preferred.

[0209] Evaluation may be at the gene transcript, or the protein level. The amount of gene expression may be monitored using nucleic acid probes to the DNA or RNA equivalent of the gene transcript, and the quantification of gene expression levels, or, alternatively, the final gene product itself (protein) can be monitored, e.g., with antibodies to the bladder cancer protein and standard immunoassays (ELISAs, etc.) or other techniques, including mass spectroscopy assays, 2D gel electrophoresis assays, etc. Proteins corresponding to bladder cancer genes, e.g., those identified as being important in a bladder cancer or disease phenotype, can be evaluated in a bladder cancer diagnostic test.

[0210] In a preferred embodiment, gene expression monitoring is performed simultaneously on a number of genes. Multiple protein expression monitoring can be performed as well. Similarly, these assays may be performed on an individual basis as well.

[0211] In this embodiment, the bladder cancer nucleic acid probes are attached to biochips as outlined herein for the detection and quantification of bladder cancer sequences in a particular cell. The assays are further described below in the example. PCR techniques can be used to provide greater sensitivity.

[0212] In a preferred embodiment nucleic acids encoding the bladder cancer protein are detected. Although DNA or RNA encoding the bladder cancer protein may be detected, of particular interest are methods wherein an mRNA encoding a bladder cancer protein is detected. Probes to detect mRNA can be a nucleotide/deoxynucleotide probe that is complementary to and hybridizes with the mRNA and includes, but is not limited to, oligonucleotides, cDNA or RNA. Probes also should contain a detectable label, as defined herein. In one method the mRNA is detected after immobilizing the nucleic acid to be examined on a solid support such as nylon membranes and hybridizing the probe with the sample. Following washing to remove the non-specifically bound probe, the label is detected. In another method detection of the mRNA is performed in situ. In this method permeabilized cells or tissue samples are contacted with a detectably labeled nucleic acid probe for sufficient time to allow the probe to hybridize with the target mRNA. Following washing to remove the non-specifically bound probe, the label is detected. For example, a digoxygenin labeled riboprobe (RNA probe) that is complementary to the mRNA encoding a bladder cancer protein is detected by binding the digoxygenin with an anti-digoxygenin secondary antibody and developed with nitro blue tetrazolium and 5-bromo-4-chloro-3-indoyl phosphate.

[0213] In a preferred embodiment, various proteins from the three classes of proteins as described herein (secreted, transmembrane or intracellular proteins) are used in diagnostic assays. The bladder cancer proteins, antibodies, nucleic acids, modified proteins and cells containing bladder cancer sequences are used in diagnostic assays. This can be performed on an individual gene or corresponding polypeptide level. In a preferred embodiment, the expression profiles are used, preferably in conjunction with high throughput screening techniques to allow monitoring for expression profile genes and/or corresponding polypeptides.

[0214] As described and defined herein, bladder cancer proteins, including intracellular, transmembrane or secreted proteins, find use as diagnostic or prognostic markers of bladder cancer, or to assist in selecting therpay based on expression profile and archival data. Detection of these proteins in putative bladder cancer tissue allows for detection or diagnosis of bladder cancer. In one embodiment, antibodies are used to detect bladder cancer proteins. A preferred method separates proteins from a sample by electrophoresis on a gel (typically a denaturing and reducing protein gel, but may be another type of gel, including isoelectric focusing gels and the like). Following separation of proteins, the bladder cancer protein is detected, e.g., by immunoblotting with antibodies raised against the bladder cancer protein. Methods of immunoblotting are well known to those of ordinary skill in the art.

[0215] In another preferred method, antibodies to the bladder cancer protein find use in in situ imaging techniques, e.g., in histology (e.g., Asai (ed. 1993) “Antibodies in Cell Biology” Methods in Cell Biology (vol. 37). In this method cells are contacted with from one to many antibodies to the bladder cancer protein(s). Following washing to remove non-specific antibody binding, the presence of the antibody or antibodies is detected. In one embodiment the antibody is detected by incubating with a secondary antibody that contains a detectable label. In another method the primary antibody to the bladder cancer protein(s) contains a detectable label, e.g. an enzyme marker that can act on a substrate. In another preferred embodiment each one of multiple primary antibodies contains a distinct and detectable label. This method finds particular use in simultaneous screening for a plurality of bladder cancer proteins. As will be appreciated by one of ordinary skill in the art, many other histological imaging techniques are also provided by the invention.

[0216] In a preferred embodiment the label is detected in a fluorometer which has the ability to detect and distinguish emissions of different wavelengths. In addition, a fluorescence activated cell sorter (FACS) can be used in the method.

[0217] In another preferred embodiment, antibodies find use in diagnosing bladder cancer from blood, serum, plasma, stool, urine, and other samples. Such samples, therefore, are useful as samples to be probed or tested for the presence of bladder cancer proteins. Antibodies can be used to detect a bladder cancer protein by previously described immunoassay techniques including ELISA, immunoblotting (western blotting), immunoprecipitation, BIACORE technology and the like. Conversely, the presence of antibodies may indicate an immune response against an endogenous bladder cancer protein.

[0218] In a preferred embodiment, in situ hybridization of labeled bladder cancer nucleic acid probes to tissue arrays is done. For example, arrays of tissue samples, including bladder cancer tissue and/or normal tissue, are made. In situ hybridization (see, e.g., Ausubel, supra) is then performed. When comparing the fingerprints between an individual and a standard, the skilled artisan can make a diagnosis, a prognosis, or a prediction based on the findings. It is further understood that the genes which indicate the diagnosis may differ from those which indicate the prognosis and molecular profiling of the condition of the cells may lead to distinctions between responsive or refractory conditions or may be predictive of outcomes.

[0219] In a preferred embodiment, the bladder cancer proteins, antibodies, nucleic acids, modified proteins and cells containing bladder cancer sequences are used in prognosis assays. As above, gene expression profiles can be generated that correlate to bladder cancer, clinical, pathological, or other information, e.g., in terms of long term prognosis. Again, this may be done on either a protein or gene level, with the use of genes being preferred. Single or multiple genes may be useful in various combinations. As above, bladder cancer probes may be attached to biochips for the detection and quantification of bladder cancer sequences in a tissue or patient. The assays proceed as outlined above for diagnosis. PCR methods may provide more sensitive and accurate quantification.

[0220] Assays for Therapeutic Compounds

[0221] In a preferred embodiment members of the proteins, nucleic acids, and antibodies as described herein are used in drug screening assays. The bladder cancer proteins, antibodies, nucleic acids, modified proteins and cells containing bladder cancer sequences are used in drug screening assays or by evaluating the effect of drug candidates on a “gene expression profile” or expression profile of polypeptides. In a preferred embodiment, the expression profiles are used, preferably in conjunction with high throughput screening techniques to allow monitoring for expression profile genes after treatment with a candidate agent. See, e.g., Zlokarnik, et al. (1998) Science 279:84-88; and Heid (1996) Genome Res. 6:986-94.

[0222] In a preferred embodiment, the bladder cancer proteins, antibodies, nucleic acids, modified proteins and cells containing the native or modified bladder cancer proteins are used in screening assays. That is, the present invention provides novel methods for screening for compositions which modulate the bladder cancer phenotype or an identified physiological function of a bladder cancer protein. As above, this can be done on an individual gene level or by evaluating the effect of drug candidates on a “gene expression profile”. In a preferred embodiment, the expression profiles are used, preferably in conjunction with high throughput screening techniques to allow monitoring for expression profile genes after treatment with a candidate agent, see Zlokarnik, supra.

[0223] Having identified the differentially expressed genes herein, a variety of assays may be executed. In a preferred embodiment, assays may be run on an individual gene or protein level. That is, having identified a particular gene as up regulated in bladder cancer, test compounds can be screened for the ability to modulate gene expression or for binding to the bladder cancer protein. “Modulation” thus includes both an increase and a decrease in gene expression. The preferred amount of modulation will depend on the original change of the gene expression in normal versus tissue undergoing bladder cancer, with changes of at least about 10%, preferably about 50%, more preferably about 100-300%, and in some embodiments about 300-1000% or greater. Thus, if a gene exhibits about 4-fold increase in bladder cancer tissue compared to normal tissue, a decrease of about four-fold is often desired; similarly, about 10-fold decrease in bladder cancer tissue compared to normal tissue often provides a target value of about 10-fold increase in expression to be induced by the test compound.

[0224] The amount of gene expression may be monitored using nucleic acid probes and the quantification of gene expression levels, or, alternatively, the gene product itself can be monitored, e.g., through the use of antibodies to the bladder cancer protein and standard immunoassays. Proteomics and separation techniques may also allow quantification of expression.

[0225] In a preferred embodiment, gene expression or protein monitoring of a number of entities, e.g., an expression profile, is monitored simultaneously. Such profiles will typically involve a plurality of those entities described herein.

[0226] In this embodiment, the bladder cancer nucleic acid probes are attached to biochips as outlined herein for the detection and quantification of bladder cancer sequences in a particular cell. Alternatively, PCR may be used. Thus, a series, e.g., of microtiter plate, may be used with dispensed primers in desired wells. A PCR reaction can then be performed and analyzed for each well.

[0227] Expression monitoring can be performed to identify compounds that modify the expression of one or more bladder cancer-associated sequences, e.g., a polynucleotide sequence set out in Tables 1A-13. Generally, in a preferred embodiment, a test modulator is added to the cells prior to analysis. Moreover, screens are also provided to identify agents that modulate bladder cancer, modulate bladder cancer proteins, bind to a bladder cancer protein, or interfere with the binding of a bladder cancer protein and an antibody or other binding partner.

[0228] The term “test compound” or “drug candidate” or “modulator” or grammatical equivalents as used herein describes a molecule, e.g., protein, oligopeptide, small organic molecule, polysaccharide, polynucleotide, etc., to be tested for the capacity to directly or indirectly alter the bladder cancer phenotype or the expression of a bladder cancer sequence, e.g., a nucleic acid or protein sequence. In preferred embodiments, modulators alter expression profiles, or expression profile nucleic acids or proteins provided herein. In one embodiment, the modulator suppresses a bladder cancer phenotype, e.g., to a normal tissue or non-malignant fingerprint. In another embodiment, a modulator induced a bladder cancer phenotype. Generally, a plurality of assay mixtures are run in parallel with different agent concentrations to obtain a differential response to the various concentrations. Typically, one of these concentrations serves as a negative control, e.g., at zero concentration or below the level of detection.

[0229] Drug candidates encompass numerous chemical classes, though typically they are organic molecules, preferably small organic compounds having a molecular weight of more than about 100 and less than about 2,500 daltons. Preferred small molecules are less than about 2000, or less than about 1500 or less than about 1000 or less than about 500 D. Candidate agents comprise functional groups necessary for structural interaction with proteins, particularly hydrogen bonding, and typically include at least an amine, carbonyl, hydroxyl, or carboxyl group, preferably at least two of the functional chemical groups. The candidate agents often comprise cyclical carbon or heterocyclic structures and/or aromatic or polyaromatic structures substituted with one or more of the above functional groups. Candidate agents are also found among biomolecules including peptides, saccharides, fatty acids, steroids, purines, pyrimidines, derivatives, structural analogs or combinations thereof. Particularly preferred are peptides.

[0230] In one aspect, a modulator will neutralize the effect of a bladder cancer protein. By “ineutralize” is meant that activity of a protein is inhibited or blocked and the consequent effect on the cell.

[0231] In certain embodiments, combinatorial libraries of potential modulators will be screened for an ability to bind to a bladder cancer polypeptide or to modulate activity. Conventionally, new chemical entities with useful properties are generated by identifying a chemical compound (called a “lead compound”) with some desirable property or activity, e.g., inhibiting activity, creating variants of the lead compound, and evaluating the property and activity of those variant compounds. Often, high throughput screening (HTS) methods are employed for such an analysis.

[0232] In one preferred embodiment, high throughput screening methods involve providing a library containing a large number of potential therapeutic compounds (candidate compounds). Such “combinatorial chemical libraries” are then screened in one or more assays to identify those library members (particular chemical species or subclasses) that display a desired characteristic activity. The compounds thus identified can serve as conventional “lead compounds” or can themselves be used as potential or actual therapeutics.

[0233] A combinatorial chemical library is a collection of diverse chemical compounds generated by either chemical synthesis or biological synthesis by combining a number of chemical “building blocks” such as reagents. For example, a linear combinatorial chemical library, such as a polypeptide (e.g., mutein) library, is formed by combining a set of chemical building blocks called amino acids in every possible way for a given compound length (e.g., the number of amino acids in a polypeptide compound). Millions of chemical compounds can be synthesized through such combinatorial mixing of chemical building blocks. See, e.g., Gallop, et al. (1994) J. Med. Chem. 37:1233-1251.

[0234] Preparation and screening of combinatorial chemical libraries is well known to those of skill in the art. Such combinatorial chemical libraries include, but are not limited to, peptide libraries (see, e.g., U.S. Pat. No. 5,010,175, Furka (1991) Pept. Prot. Res. 37:487-493, Houghton, et al. (1991) Nature 354:84-88); peptoids (PCT Publication No WO 91/19735); encoded peptides (PCT Publication WO 93/20242); random bio-oligomers (PCT Publication WO 92/00091); benzodiazepines (U.S. Pat. No. 5,288,514); diversomers such as hydantoins, benzodiazepines, and dipeptides (Hobbs, et al. (1993) Proc. Nat'l Acad. Sci. USA 90:6909-6913); vinylogous polypeptides (Hagihara, et al. (1992) J. Amer. Chem. Soc. 114:6568-6570); nonpeptidal peptidomimetics with a Beta-D-Glucose scaffolding (Hirschmann, et al. (1992) J. Amer. Chem. Soc. 114:9217-9218); analogous organic syntheses of small compound libraries (Chen, et al. (1994) J. Amer. Chem. Soc. 116:2661-2662); oligocarbamates (Cho, et al. (1993) Science 261:1303-1305); and/or peptidyl phosphonates (Campbell, et al. (1994) J. Org. Chem. 59:658-xxx). See, generally, Gordon, et al. (1994) J. Med. Chem. 37:1385-1401, nucleic acid libraries (see, e.g., Strategene, Corp.); peptide nucleic acid libraries (see, e.g., U.S. Pat. No. 5,539,083); antibody libraries (see, e.g., Vaughn, et al. (1996) Nature Biotechnology 14:309-314, and PCT/US96/10287); carbohydrate libraries (Liang, et al. (1996) Science 274:1520-1522, and U.S. Pat. No. 5,593,853); and small organic molecule libraries (see, e.g., benzodiazepines, Baum (p. 33, Jan. 18, 1993) C&E News); isoprenoid (U.S. Pat. No. 5,569,588); thiazolidinones and metathiazanones (U.S. Pat. No. 5,549,974); pyrrolidines (U.S. Pat. Nos. 5,525,735 and 5,519,134); morpholino compounds (U.S. Pat. No. 5,506,337); benzodiazepines (U.S. Pat. No. 5,288,514); and the like.

[0235] Devices for the preparation of combinatorial libraries are commercially available. See, e.g., 357 MPS, 390 MPS, Advanced Chem Tech, Louisville Ky.; Symphony, Rainin, Woburn, Mass.; 433A Applied Biosystems, Foster City, Calif.; and 9050 Plus, Millipore, Bedford, Mass.

[0236] A number of well known robotic systems have also been developed for solution phase chemistries. These systems include automated workstations like the automated synthesis apparatus developed by Takeda Chemical Industries, LTD. (Osaka, Japan) and many robotic systems utilizing robotic arms (Zymate II, Zymark Corporation, Hopkinton, Mass.; Orca, Hewlett-Packard, Palo Alto, Calif.), which mimic the manual synthetic operations performed by a chemist. The above devices are suitable for use with the present invention. The nature and implementation of modifications to these devices (if any) so that they can operate as discussed herein will be apparent to persons skilled in the relevant art. In addition, numerous combinatorial libraries are themselves commercially available (see, e.g., ComGenex, Princeton, N.J.; Asinex, Moscow, Ru; Tripos, Inc., St. Louis, Mo.; ChemStar, Ltd, Moscow, RU; 3D Pharmaceuticals, Exton, Pa.; Martek Biosciences, Columbia, Md., etc.).

[0237] The assays to identify modulators are amenable to high throughput screening. Preferred assays thus detect enhancement or inhibition of bladder cancer gene transcription, inhibition or enhancement of polypeptide expression, and inhibition or enhancement of polypeptide activity.

[0238] High throughput assays for the presence, absence, quantification, or other properties of particular nucleic acids or protein products are well known to those of skill in the art. Similarly, binding assays and reporter gene assays are similarly well known. Thus, e.g., U.S. Pat. No. 5,559,410 discloses high throughput screening methods for proteins, U.S. Pat. No. 5,585,639 discloses high throughput screening methods for nucleic acid binding (e.g., in arrays), while U.S. Pat. Nos. 5,576,220 and 5,541,061 disclose high throughput methods of screening for ligand/antibody binding.

[0239] In addition, high throughput screening systems are commercially available (see, e.g., Zymark Corp., Hopkinton, Mass.; Air Technical Industries, Mentor, Ohio; Beckman Instruments, Inc. Fullerton, Calif.; Precision Systems, Inc., Natick, Mass.; etc.). These systems typically automate entire procedures, including all sample and reagent pipetting, liquid dispensing, timed incubations, and final readings of the microplate in detector(s) appropriate for the assay. These configurable systems provide high throughput and rapid start up as well as a high degree of flexibility and customization. The manufacturers of such systems provide detailed protocols for various high throughput systems. Thus, e.g., Zymark Corp. provides technical bulletins describing screening systems for detecting the modulation of gene transcription, ligand binding, and the like.

[0240] In one embodiment, modulators are proteins, often naturally occurring proteins or fragments of naturally occurring proteins. Thus, e.g., cellular extracts containing proteins, or random or directed digests of proteinaceous cellular extracts, may be used. In this way libraries of proteins may be made for screening in the methods of the invention. Particularly preferred in this embodiment are libraries of bacterial, fungal, viral, and mammalian proteins, with the latter being preferred, and human proteins being especially preferred. Particularly useful test compound will be directed to the class of proteins to which the target belongs, e.g., substrates for enzymes or ligands and receptors.

[0241] In a preferred embodiment, modulators are peptides of from about 5-30 amino acids, with from about 5-20 amino acids being preferred, and from about 7-15 being particularly preferred. The peptides may be digests of naturally occurring proteins as is outlined above, random peptides, or “biased” random peptides. By “randomized” or grammatical equivalents herein is meant that each nucleic acid and peptide consists of essentially random nucleotides and amino acids, respectively. Since generally these random peptides (or nucleic acids, discussed below) are chemically synthesized, they may incorporate nucleotide or amino acid substitutions. The synthetic process can be designed to generate randomized proteins or nucleic acids, to allow the formation of all or most of the possible combinations over the length of the sequence, thus forming a library of randomized candidate bioactive proteinaceous agents.

[0242] In one embodiment, the library is fully randomized, with no sequence preferences or constants. In a preferred embodiment, the library is biased. That is, some positions within the sequence are either held constant, or are selected from a limited number of possibilities. For example, in a preferred embodiment, the nucleotides or amino acid residues are randomized within a defined class, e.g., of hydrophobic amino acids, hydrophilic residues, sterically biased (either small or large) residues, towards the creation of nucleic acid binding domains, the creation of cysteines, for cross-linking, prolines for SH-3 domains, serines, threonines, tyrosines or histidines for phosphorylation sites, etc., or to purines, etc.

[0243] Modulators of bladder cancer can also be nucleic acids, as defined above.

[0244] As described above generally for proteins, nucleic acid modulating agents may be naturally occurring nucleic acids, random nucleic acids, or “biased” random nucleic acids. Digests of procaryotic or eucaryotic genomes may be used as is outlined above for proteins.

[0245] In a preferred embodiment, the candidate compounds are organic chemical moieties, a wide variety of which are available in the literature.

[0246] After the candidate agent has been added and the cells allowed to incubate for some period of time, the sample containing a target sequence to be analyzed is added to the biochip. If required, the target sequence is prepared using known techniques. For example, the sample may be treated to lyse the cells, using known lysis buffers, electroporation, etc., with purification and/or amplification such as PCR performed as appropriate. For example, an in vitro transcription with labels covalently attached to the nucleotides is performed. Generally, the nucleic acids are labeled with biotin-FITC or PE, or with cy3 or cy5.

[0247] In a preferred embodiment, the target sequence is labeled with, e.g., a fluorescent, a chemiluminescent, a chemical, or a radioactive signal, to provide a means of detecting the target sequence's specific binding to a probe. The label also can be an enzyme, such as, alkaline phosphatase or horseradish peroxidase, which when provided with an appropriate substrate produces a product that can be detected. Alternatively, the label can be a labeled compound or small molecule, such as an enzyme inhibitor, that binds but is not catalyzed or altered by the enzyme. The label also can be a moiety or compound, such as, an epitope tag or biotin which specifically binds to streptavidin. For the example of biotin, the streptavidin is labeled as described above, thereby, providing a detectable signal for the bound target sequence. Unbound labeled streptavidin is typically removed prior to analysis.

[0248] As will be appreciated by those in the art, these assays can be direct hybridization assays or can comprise “sandwich assays”, which include the use of multiple probes, as is generally outlined in U.S. Pat. Nos. 5,681,702, 5,597,909, 5,545,730, 5,594,117, 5,591,584, 5,571,670, 5,580,731, 5,571,670, 5,591,584, 5,624,802, 5,635,352, 5,594,118, 5,359,100, 5,124,246 and 5,681,697, all of which are hereby incorporated by reference. In this embodiment, in general, the target nucleic acid is prepared as outlined above, and then added to the biochip comprising a plurality of nucleic acid probes, under conditions that allow the formation of a hybridization complex.

[0249] A variety of hybridization conditions may be used in the present invention, including high, moderate and low stringency conditions as outlined above. The assays are generally run under stringency conditions which allows formation of the label probe hybridization complex only in the presence of target. Stringency can be controlled by altering a step parameter that is a thermodynamic variable, including, but not limited to, temperature, formamide concentration, salt concentration, chaotropic salt concentration pH, organic solvent concentration, etc.

[0250] These parameters may also be used to control non-specific binding, as is generally outlined in U.S. Pat. No. 5,681,697. Thus it may be desirable to perform certain steps at higher stringency conditions to reduce non-specific binding.

[0251] The reactions outlined herein may be accomplished in a variety of ways. Components of the reaction may be added simultaneously, or sequentially, in different orders, with preferred embodiments outlined below. In addition, the reaction may include a variety of other reagents. These include salts, buffers, neutral proteins, e.g., albumin, detergents, etc., which may be used to facilitate optimal hybridization and detection, and/or reduce non-specific or background interactions. Reagents that otherwise improve the efficiency of the assay, such as protease inhibitors, nuclease inhibitors, anti-microbial agents, etc., may also be used as appropriate, depending on the sample preparation methods and purity of the target.

[0252] The assay data are analyzed to determine the expression levels, and changes in expression levels as between states, of individual genes, forming a gene expression profile.

[0253] Screens are performed to identify modulators of the bladder cancer phenotype. In one embodiment, screening is performed to identify modulators that can induce or suppress a particular expression profile, thus preferably generating the associated phenotype. In another embodiment, e.g., for diagnostic applications, having identified differentially expressed genes important in a particular state, screens can be performed to identify modulators that alter expression of individual genes. In an another embodiment, screening is performed to identify modulators that alter a biological function of the expression product of a differentially expressed gene. Again, having identified the importance of a gene in a particular state, screens are performed to identify agents that bind and/or modulate the biological activity of the gene product.

[0254] In addition screens can be done for genes that are induced in response to a candidate agent. After identifying a modulator based upon its ability to suppress a bladder cancer expression pattern leading to a normal expression pattern, or to modulate a single bladder cancer gene expression profile so as to mimic the expression of the gene from normal tissue, a screen as described above can be performed to identify genes that are specifically modulated in response to the agent. Comparing expression profiles between normal tissue and agent treated bladder cancer tissue reveals genes that are not expressed in normal tissue or bladder cancer tissue, but are expressed in agent treated tissue. These agent-specific sequences can be identified and used by methods described herein for bladder cancer genes or proteins. In particular these sequences and the proteins they encode find use in marking or identifying agent treated cells. In addition, antibodies can be raised against the agent induced proteins and used to target novel therapeutics to the treated bladder cancer tissue sample.

[0255] Thus, in one embodiment, a test compound is administered to a population of bladder cancer cells, that have an associated bladder cancer expression profile. By “administration” or “contacting” herein is meant that the candidate agent is added to the cells in such a manner as to allow the agent to act upon the cell, whether by uptake and intracellular action, or by action at the cell surface. In some embodiments, nucleic acid encoding a proteinaceous candidate agent (e.g., a peptide) may be put into a viral construct such as an adenoviral or retroviral construct, and added to the cell, such that expression of the peptide agent is accomplished, e.g., PCT US97/01019. Regulatable gene therapy systems can also be used.

[0256] Once the test compound has been administered to the cells, the cells can be washed if desired and are allowed to incubate under preferably physiological conditions for some period of time. The cells are then harvested and a new gene expression profile is generated, as outlined herein.

[0257] Thus, e.g., bladder cancer or non-malignant tissue may be screened for agents that modulate, e.g., induce or suppress the bladder cancer phenotype. A change in at least one gene, preferably many, of the expression profile indicates that the agent has an effect on bladder cancer activity. By defining such a signature for the bladder cancer phenotype, screens for new drugs that alter the phenotype can be devised. With this approach, the drug target need not be known and need not be represented in the original expression screening platform, nor does the level of transcript for the target protein need to change.

[0258] In a preferred embodiment, as outlined above, screens may be done on individual genes and gene products (proteins). That is, having identified a particular differentially expressed gene as important in a particular state, screening of modulators of either the expression of the gene or the gene product itself can be done. The gene products of differentially expressed genes are sometimes referred to herein as “bladder cancer proteins” or a “bladder cancer modulatory protein”. The bladder cancer modulatory protein may be a fragment, or alternatively, be the full length protein to the fragment encoded by the nucleic acids of the Tables 1A-13. Preferably, the bladder cancer modulatory protein is a fragment. In a preferred embodiment, the bladder cancer amino acid sequence which is used to determine sequence identity or similarity is encoded by a nucleic acid of Tables 1A-13. In another embodiment, the sequences are naturally occurring allelic variants of a protein encoded by a nucleic acid of Tables 1A-13. In another embodiment, the sequences are sequence variants as further described herein.

[0259] Preferably, the bladder cancer modulatory protein is a fragment of approximately 14 to 24 amino acids long. More preferably the fragment is a soluble fragment. Preferably, the fragment includes a non-transmembrane region. In a preferred embodiment, the fragment has an N-terminal Cys to aid in solubility. In one embodiment, the C-terminus of the fragment is kept as a free acid and the N-terminus is a free amine to aid in coupling, e.g., to cysteine.

[0260] In one embodiment the bladder cancer proteins are conjugated to an immunogenic agent as discussed herein. In one embodiment the bladder cancer protein is conjugated to BSA.

[0261] Measurements of bladder cancer polypeptide activity, or of bladder cancer or the bladder cancer phenotype can be performed using a variety of assays. For example, the effects of the test compounds upon the function of the bladder cancer polypeptides can be measured by examining parameters described above. A suitable physiological change that affects activity can be used to assess the influence of a test compound on the polypeptides of this invention. When the functional consequences are determined using intact cells or animals, one can also measure a variety of effects such as, in the case of bladder cancer associated with tumors, tumor growth, tumor metastasis, neovascularization, hormone release, transcriptional changes to both known and uncharacterized genetic markers (e.g., northern blots), changes in cell metabolism such as cell growth or pH changes, and changes in intracellular second messengers such as cGMP. In the assays of the invention, mammalian bladder cancer polypeptide is typically used, e.g., mouse, preferably human.

[0262] Assays to identify compounds with modulating activity can be performed in vitro. For example, a bladder cancer polypeptide is first contacted with a potential modulator and incubated for a suitable amount of time, e.g., from 0.5-48 hours. In one embodiment, the bladder cancer polypeptide levels are determined in vitro by measuring the level of protein or mRNA. The level of protein is measured using immunoassays such as western blotting, ELISA and the like with an antibody that selectively binds to the bladder cancer polypeptide or a fragment thereof. For measurement of mRNA, amplification, e.g., using PCR, LCR, or hybridization assays, e.g., northern hybridization, RNase protection, dot blotting, are preferred. The level of protein or mRNA is detected using directly or indirectly labeled detection agents, e.g., fluorescently or radioactively labeled nucleic acids, radioactively or enzymatically labeled antibodies, and the like, as described herein.

[0263] Alternatively, a reporter gene system can be devised using the bladder cancer protein promoter operably linked to a reporter gene such as luciferase, green fluorescent protein, CAT, or β-gal. The reporter construct is typically transfected into a cell. After treatment with a potential modulator, the amount of reporter gene transcription, translation, or activity is measured according to standard techniques known to those of skill in the art.

[0264] In a preferred embodiment, as outlined above, screens may be done on individual genes and gene products (proteins). That is, having identified a particular differentially expressed gene as important in a particular state, screening of modulators of the expression of the gene or the gene product itself can be done. The gene products of differentially expressed genes are sometimes referred to herein as “bladder cancer proteins.” The bladder cancer protein may be a fragment, or alternatively, be the full length protein to a fragment shown herein.

[0265] In one embodiment, screening for modulators of expression of specific genes is performed. Typically, the expression of only one or a few genes are evaluated. In another embodiment, screens are designed to first find compounds that bind to differentially expressed proteins. These compounds are then evaluated for the ability to modulate differentially expressed activity. Moreover, once initial candidate compounds are identified, variants can be further screened to better evaluate structure activity relationships.

[0266] In a preferred embodiment, binding assays are done. In general, purified or isolated gene product is used; that is, the gene products of one or more differentially expressed nucleic acids are made. For example, antibodies are generated to the protein gene products, and standard immunoassays are run to determine the amount of protein present. Alternatively, cells comprising the bladder cancer proteins can be used in the assays.

[0267] Thus, in a preferred embodiment, the methods comprise combining a bladder cancer protein and a candidate compound, and determining the binding of the compound to the bladder cancer protein. Preferred embodiments utilize the human bladder cancer protein, although other mammalian proteins may also be used, e.g., for the development of animal models of human disease. In some embodiments, as outlined herein, variant or derivative bladder cancer proteins may be used.

[0268] Generally, in a preferred embodiment of the methods herein, the bladder cancer protein or the candidate agent is non-diffusably bound to an insoluble support having isolated sample receiving areas (e.g., a microtiter plate, an array, etc.). The insoluble supports may be made of a composition to which the compositions can be bound, is readily separated from soluble material, and is otherwise compatible with the overall method of screening. The surface of such supports may be solid or porous and of a convenient shape. Examples of suitable insoluble supports include microtiter plates, arrays, membranes and beads. These are typically made of glass, plastic (e.g., polystyrene), polysaccharides, nylon or nitrocellulose, teflon™, etc. Microtiter plates and arrays are especially convenient because a large number of assays can be carried out simultaneously, using small amounts of reagents and samples. The particular manner of binding of the composition is not crucial so long as it is compatible with the reagents and overall methods of the invention, maintains the activity of the composition and is nondiffusable. Preferred methods of binding include the use of antibodies (which do not sterically block either the ligand binding site or activation sequence when the protein is bound to the support), direct binding to “sticky” or ionic supports, chemical crosslinking, the synthesis of the protein or agent on the surface, etc. Following binding of the protein or agent, excess unbound material is removed by washing. The sample receiving areas may then be blocked through incubation with bovine serum albumin (BSA), casein or other innocuous protein or other moiety.

[0269] In a preferred embodiment, the bladder cancer protein is bound to the support, and a test compound is added to the assay. Alternatively, the candidate agent is bound to the support and the bladder cancer protein is added. Novel binding agents include specific antibodies, non-natural binding agents identified in screens of chemical libraries, peptide analogs, etc. Of particular interest are screening assays for agents that have a low toxicity for human cells. A wide variety of assays may be used for this purpose, including labeled in vitro protein-protein binding assays, electrophoretic mobility shift assays, immunoassays for protein binding, functional assays (phosphorylation assays, etc.) and the like.

[0270] The determination of the binding of the test modulating compound to the bladder cancer protein may be done in a number of ways. In a preferred embodiment, the compound is labeled, and binding determined directly, e.g., by attaching all or a portion of the bladder cancer protein to a solid support, adding a labeled candidate agent (e.g., a fluorescent label), washing off excess reagent, and determining whether the label is present on the solid support. Various blocking and washing steps may be utilized as appropriate.

[0271] In some embodiments, only one of the components is labeled, e.g., the proteins (or proteinaceous candidate compounds) can be labeled. Alternatively, more than one component can be labeled with different labels, e.g., ¹²⁵I for the proteins and a fluorophor for the compound. Proximity reagents, e.g., quenching or energy transfer reagents are also useful.

[0272] In one embodiment, the binding of the test compound is determined by competitive binding assay. The competitor is a binding moiety known to bind to the target molecule (e.g., a bladder cancer protein), such as an antibody, peptide, binding partner, ligand, etc. Under certain circumstances, there may be competitive binding between the compound and the binding moiety, with the binding moiety displacing the compound. In one embodiment, the test compound is labeled. Either the compound, or the competitor, or both, is added first to the protein for a time sufficient to allow binding, if present. Incubations may be performed at a temperature which facilitates optimal activity, typically between 4 and 40° C. Incubation periods are typically optimized, e.g., to facilitate rapid high throughput screening. Typically between 0.1 and 1 hour will be sufficient. Excess reagent is generally removed or washed away. The second component is then added, and the presence or absence of the labeled component is followed, to indicate binding.

[0273] In a preferred embodiment, the competitor is added first, followed by the test compound. Displacement of the competitor is an indication that the test compound is binding to the bladder cancer protein and thus is capable of binding to, and potentially modulating, the activity of the bladder cancer protein. In this embodiment, either component can be labeled. Thus, e.g., if the competitor is labeled, the presence of label in the wash solution indicates displacement by the agent. Alternatively, if the test compound is labeled, the presence of the label on the support indicates displacement.

[0274] In an alternative embodiment, the test compound is added first, with incubation and washing, followed by the competitor. The absence of binding by the competitor may indicate that the test compound is bound to the bladder cancer protein with a higher affinity. Thus, if the test compound is labeled, the presence of the label on the support, coupled with a lack of competitor binding, may indicate that the test compound is capable of binding to the bladder cancer protein.

[0275] In a preferred embodiment, the methods comprise differential screening to identity agents that are capable of modulating the activity of the bladder cancer proteins. In this embodiment, the methods comprise combining a bladder cancer protein and a competitor in a first sample. A second sample comprises a test compound, a bladder cancer protein, and a competitor. The binding of the competitor is determined for both samples, and a change, or difference in binding between the two samples indicates the presence of an agent capable of binding to the bladder cancer protein and potentially modulating its activity. That is, if the binding of the competitor is different in the second sample relative to the first sample, the agent is capable of binding to the bladder cancer protein.

[0276] Alternatively, differential screening is used to identify drug candidates that bind to the native bladder cancer protein, but cannot bind to modified bladder cancer proteins. The structure of the bladder cancer protein may be modeled, and used in rational drug design to synthesize agents that interact with that site. Drug candidates that affect the activity of a bladder cancer protein are also identified by screening drugs for the ability to either enhance or reduce the activity of the protein.

[0277] Positive controls and negative controls may be used in the assays. Preferably control and test samples are performed in at least triplicate to obtain statistically significant results. Incubation of all samples is for a time sufficient for the binding of the agent to the protein. Following incubation, samples are washed free of non-specifically bound material and the amount of bound, generally labeled agent determined. For example, where a radiolabel is employed, the samples may be counted in a scintillation counter to determine the amount of bound compound.

[0278] A variety of other reagents may be included in the screening assays. These include reagents like salts, neutral proteins, e.g., albumin, detergents, etc. which may be used to facilitate optimal protein-protein binding and/or reduce non-specific or background interactions. Also reagents that otherwise improve the efficiency of the assay, such as protease inhibitors, nuclease inhibitors, anti-microbial agents, etc., may be used. The mixture of components may be added in an order that provides for the requisite binding.

[0279] In a preferred embodiment, the invention provides methods for screening for a compound capable of modulating the activity of a bladder cancer protein. The methods comprise adding a test compound, as defined above, to a cell comprising bladder cancer proteins. Many different cell types may be transfected to contain a recombinant nucleic acid that encodes a bladder cancer protein. In a preferred embodiment, a library of candidate agents are tested on a plurality of cells.

[0280] In one aspect, the assays are evaluated in the presence or absence or previous or subsequent exposure of physiological signals, e.g., hormones, antibodies, peptides, antigens, cytokines, growth factors, action potentials, and pharmacological agents including, e.g., chemotherapeutics, radiation, carcinogenics, or other cells (e.g., cell-cell contacts). In one example, the determinations are determined at different stages of the cell cycle process.

[0281] In this way, compounds that modulate bladder cancer agents are identified. Compounds with pharmacological activity are able to enhance or interfere with the activity of the bladder cancer protein. Once identified, similar structures are evaluated to identify critical structural feature of the compound.

[0282] In one embodiment, a method of inhibiting bladder cancer cell division is provided. The method comprises administration of a bladder cancer inhibitor. In another embodiment, a method of inhibiting bladder cancer is provided. The method comprises administration of a bladder cancer inhibitor. In a further embodiment, methods of treating cells or individuals with bladder cancer are provided. The method comprises administration of a bladder cancer inhibitor. In one embodiment, a bladder cancer inhibitor is an antibody as discussed above. In another embodiment, the bladder cancer inhibitor is an antisense molecule.

[0283] A variety of cell growth, proliferation, and metastasis assays are known to those of skill in the art, as described below.

[0284] Soft Agar Growth or Colony Formation in Suspension

[0285] Normal cells require a solid substrate to attach and grow. When the cells are transformed, they lose this phenotype and grow detached from the substrate. For example, transformed cells can grow in stirred suspension culture or suspended in semi-solid media, such as semi-solid or soft agar. The transformed cells, when transfected with tumor suppressor genes, regenerate normal phenotype and require a solid substrate to attach and grow. Soft agar growth or colony formation in suspension assays can be used to identify modulators of bladder cancer sequences, which when expressed in host cells, inhibit abnormal cellular proliferation and transformation. A therapeutic compound would reduce or eliminate the host cells' ability to grow in stirred suspension culture or suspended in semi-solid media, such as semi-solid or soft.

[0286] Techniques for soft agar growth or colony formation in suspension assays are described in Freshney (1994) Culture of Animal Cells: A Manual of Basic Technique (3d ed.) Wiley-Liss, herein incorporated by reference. See also, the methods section of Garkavtsev, et al. (1996), supra, herein incorporated by reference.

[0287] Contact Inhibition and Density Limitation of Growth

[0288] Normal cells typically grow in a flat and organized pattern in a petri dish until they touch other cells. When the cells touch one another, they are contact inhibited and stop growing. When cells are transformed, however, the cells are not contact inhibited and continue to grow to high densities in disorganized foci. Thus, the transformed cells grow to a higher saturation density than normal cells. This can be detected morphologically by the formation of a disoriented monolayer of cells or rounded cells in foci within the regular pattern of normal surrounding cells. Alternatively, labeling index with (3H)-thymidine at saturation density can be used to measure density limitation of growth. See Freshney (1994), supra. The transformed cells, when transfected with tumor suppressor genes, regenerate a normal phenotype and become contact inhibited and would grow to a lower density.

[0289] In this assay, labeling index with (³H)-thymidine at saturation density is a preferred method of measuring density limitation of growth. Transformed host cells are transfected with a bladder cancer-associated sequence and are grown for 24 hours at saturation density in non-limiting medium conditions. The percentage of cells labeling with (³H)-thymidine is determined autoradiographically. See, Freshney (1994), supra.

[0290] Growth Factor or Serum Dependence

[0291] Transformed cells have a lower serum dependence than their normal counterparts (see, e.g., Temin (1966) J. Nat'l Cancer Inst. 37:167-175; Eagle, et al. (1970) J. Exp. Med. 131:836-879; Freshney (1994), supra). This is in part due to release of various growth factors by the transformed cells. Growth factor or serum dependence of transformed host cells can be compared with that of control.

[0292] Tumor Specific Markers Levels

[0293] Tumor cells release an increased amount of certain factors (hereinafter “tumor specific markers”) than their normal counterparts. For example, plasminogen activator (PA) is released from human glioma at a higher level than from normal brain cells. See, e.g., “Angiogenesis, tumor vascularization, and potential interference with tumor growth” pp. 178-184 in Mihich (ed. 1985) Biological Responses in Cancer Plenum. Similarly, tumor angiogenesis factor (TAF) is released at a higher level in tumor cells than their normal counterparts. See, e.g., Folkman (1992) Sem Cancer Biol. 3:89-96.

[0294] Various techniques which measure the release of these factors are described in Freshney (1994), supra. See also, Unkeless, et al. (1974) J. Biol. Chem. 249:4295-4305; Strickland and Beers (1976) J. Biol. Chem. 251:5694-5702; Whur, et al. (1980) Br. J. Cancer 42:305-312; Gullino “Angiogenesis, tumor vascularization, and potential interference with tumor growth” pp. 178-184 in Mihich (ed. 1985) Biological Responses in Cancer, Plenum; and Freshney (1985) Anticancer Res. 5:111-130.

[0295] Invasiveness into Matrigel

[0296] The degree of invasiveness into Matrigel or some other extracellular matrix constituent can be used as an assay to identify compounds that modulate bladder cancer-associated sequences. Tumor cells exhibit a good correlation between malignancy and invasiveness of cells into Matrigel or some other extracellular matrix constituent. In this assay, tumorigenic cells are typically used as host cells. Expression of a tumor suppressor gene in these host cells would decrease invasiveness of the host cells.

[0297] Techniques described in Freshney (1984), supra, can be used. Briefly, the level of invasion of host cells can be measured by using filters coated with Matrigel or some other extracellular matrix constituent. Penetration into the gel, or through to the distal side of the filter, is rated as invasiveness, and rated histologically by number of cells and distance moved, or by prelabeling the cells with ¹²⁵I and counting the radioactivity on the distal side of the filter or bottom of the dish. See, e.g., Freshney (2000), supra.

[0298] Tumor Growth In Vivo

[0299] Effects of bladder cancer-associated sequences on cell growth can be tested in transgenic or immune-suppressed mice. Knock-out transgenic mice can be made, in which the bladder cancer gene is disrupted or in which a bladder cancer gene is inserted. Knock-out transgenic mice can be made by insertion of a marker gene or other heterologous gene into the endogenous bladder cancer gene site in the mouse genome via homologous recombination. Such mice can also be made by substituting the endogenous bladder cancer gene with a mutated version of the bladder cancer gene, or by mutating the endogenous bladder cancer gene, e.g., by exposure to carcinogens.

[0300] A DNA construct is introduced into the nuclei of embryonic stem cells. Cells containing the newly engineered genetic lesion are injected into a host mouse embryo, which is re-implanted into a recipient female. Some of these embryos develop into chimeric mice that possess germ cells partially derived from the mutant cell line. By breeding the chimeric mice it is possible to obtain a new line of mice containing the introduced genetic lesion. See, e.g., Capecchi, et al. (1989) Science 244:1288-1292. Chimeric targeted mice can be made. See Hogan, et al. (1988) Manipulating the Mouse Embryo: A Laboratory Manual, CSH Press; and Robertson (ed. 1987) Teratocarcinomas and Embryonic Stem Cells: A Practical Approach IRL Press, Washington, D.C.

[0301] Alternatively, various immune-suppressed or immune-deficient host animals can be used. For example, genetically athymic “nude” mouse (see, e.g., Giovanella, et al. (1974) J. Nat'l Cancer Inst. 52:921-930), a SCID mouse, a thymectomized mouse, or an irradiated mouse (see, e.g., Bradley, et al. (1978) Br. J. Cancer 38:263-272; Selby, et al. (1980) Br. J. Cancer 41:52-61) can be used as a host. Transplantable tumor cells (typically about 10⁶ cells) injected into isogenic hosts will produce invasive tumors in a high proportions of cases, while normal cells of similar origin will not. In hosts which developed invasive tumors, cells expressing a bladder cancer-associated sequences are injected subcutaneously. After a suitable length of time, preferably about 4-8 weeks, tumor growth is measured (e.g., by volume or by its two largest dimensions) and compared to the control. Tumors that have statistically significant reduction (using, e.g., Student's T test) are said to have inhibited growth.

[0302] Polynucleotide Modulators of Bladder Cancer

[0303] Antisense and RNAi Polynucleotides

[0304] In certain embodiments, the activity of a bladder cancer-associated protein is down-regulated, or entirely inhibited, by the use of antisense polynucleotide, e.g., a nucleic acid complementary to, and which can preferably hybridize specifically to, a coding mRNA nucleic acid sequence, e.g., a bladder cancer protein mRNA, or a subsequence thereof. Binding of the antisense polynucleotide to the mRNA reduces the translation and/or stability of the mRNA.

[0305] In the context of this invention, antisense polynucleotides can comprise naturally-occurring nucleotides, or synthetic species formed from naturally-occurring subunits or their close homologs. Antisense polynucleotides may also have altered sugar moieties or intersugar linkages. Exemplary among these are the phosphorothioate and other sulfur containing species which are known for use in the art. Analogs are comprehended by this invention so long as they function effectively to hybridize with the bladder cancer protein mRNA. See, e.g., Isis Pharmaceuticals, Carlsbad, Calif.; Sequitor, Inc., Natick, Mass.

[0306] Such antisense polynucleotides can readily be synthesized using recombinant means, or can be synthesized in vitro. Equipment for such synthesis is sold by several vendors, including Applied Biosystems. The preparation of other oligonucleotides such as phosphorothioates and alkylated derivatives is also well known.

[0307] Antisense molecules as used herein include antisense or sense oligonucleotides. Sense oligonucleotides can, e.g., be employed to block transcription by binding to the antisense strand. The antisense and sense oligonucleotide comprise a single-stranded nucleic acid sequence (either RNA or DNA) capable of binding to target mRNA (sense) or DNA (antisense) sequences for bladder cancer molecules. A preferred antisense molecule is for a bladder cancer sequences in Tables 1A-13, or for a ligand or activator thereof. Antisense or sense oligonucleotides, according to the present invention, comprise a fragment generally at least about 14 nucleotides, preferably from about 14 to 30 nucleotides. The ability to derive an antisense or a sense oligonucleotide, based upon a cDNA sequence encoding a given protein is described in, e.g., Stein and Cohen (1988) Cancer Res. 48:2659-2668; and van der Krol, et al. (1988) BioTechniques 6:958-976.

[0308] RNA interference is a mechanism to suppress gene expression in a sequence specific manner. See, e.g., Brumelkamp, et al. (2002) Sciencexpress (Mar. 21, 2002); Sharp (1999) Genes Dev. 13:139-141; and Cathew (2001) Curr. Op. Cell Biol. 13:244-248. In mammalian cells, short, e.g., 21 nt, double stranded small interfering RNAs (siRNA) have been shown to be effective at inducing an RNAi response. See, e.g., Elbashir, et al. (2001) Nature 411:494-498. The mechanism may be used to downregulate expression levels of identified genes, e.g., treatment of or validation of relevance to disease

[0309] Ribozymes

[0310] In addition to antisense polynucleotides, ribozymes can be used to target and inhibit transcription of bladder cancer-associated nucleotide sequences. A ribozyme is an RNA molecule that catalytically cleaves other RNA molecules. Different kinds of ribozymes have been described, including group I ribozymes, hammerhead ribozymes, hairpin ribozymes, RNase P, and axhead ribozymes. See, e.g., Castanotto, et al. (1994) Adv. in Pharmacology 25: 289-317 for a general review of the properties of different ribozymes.

[0311] The general features of hairpin ribozymes are described, e.g., in Hampel, et al. (1990) Nucl. Acids Res. 18:299-304; European Patent Publication No. 0 360 257; U.S. Pat. No. 5,254,678. Methods of preparing them are well known. See, e.g., WO 94/26877; Ojwang, et al. (1993) Proc. Nat'l Acad. Sci. USA 90:6340-6344; Yamada, et al. (1994) Human Gene Therapy 1:39-45; Leavitt, et al. (1995) Proc. Nat'l Acad. Sci. USA 92:699-703; Leavitt, et al. (1994) Human Gene Therapy 5:1151-120; and Yamada, et al. (1994) Virology 205: 121-126.

[0312] Polynucleotide modulators of bladder cancer may be introduced into a cell containing the target nucleotide sequence by formation of a conjugate with a ligand binding molecule, as described in WO 91/04753. Suitable ligand binding molecules include, but are not limited to, cell surface receptors, growth factors, other cytokines, or other ligands that bind to cell surface receptors. Preferably, conjugation of the ligand binding molecule does not substantially interfere with the ability of the ligand binding molecule to bind to its corresponding molecule or receptor, or block entry of the sense or antisense oligonucleotide or its conjugated version into the cell. Alternatively, a polynucleotide modulator of bladder cancer may be introduced into a cell containing the target nucleic acid sequence, e.g., by formation of an polynucleotide-lipid complex, as described in WO 90/10448. It is understood that the use of antisense molecules or knock out and knock in models may also be used in screening assays as discussed above, in addition to methods of treatment.

[0313] Thus, in one embodiment, methods of modulating bladder cancer in cells or organisms are provided. In one embodiment, the methods comprise administering to a cell an anti-bladder cancer antibody that reduces or eliminates the biological activity of an endogenous bladder cancer protein. Alternatively, the methods comprise administering to a cell or organism a recombinant nucleic acid encoding a bladder cancer protein. This may be accomplished in many ways. In a preferred embodiment, e.g., when the bladder cancer sequence is down-regulated in bladder cancer, such state may be reversed by increasing the amount of bladder cancer gene product in the cell. This can be accomplished, e.g., by overexpressing the endogenous bladder cancer gene or administering a gene encoding the bladder cancer sequence, using known gene-therapy techniques. In a preferred embodiment, the gene therapy techniques include the incorporation of the exogenous gene using enhanced homologous recombination (EHR), e.g., as described in PCT/US93/03868, hereby incorporated by reference in its entirety. Alternatively, e.g., when the bladder cancer sequence is up-regulated in bladder cancer, the activity of the endogenous bladder cancer gene is decreased, e.g., by the administration of a bladder cancer antisense nucleic acid.

[0314] In one embodiment, the bladder cancer proteins of the present invention may be used to generate polyclonal and monoclonal antibodies to bladder cancer proteins. Similarly, the bladder cancer proteins can be coupled, using standard technology, to affinity chromatography columns. These columns may then be used to purify bladder cancer antibodies useful for production, diagnostic, or therapeutic purposes. In a preferred embodiment, the antibodies are generated to epitopes unique to a bladder cancer protein; that is, the antibodies show little or no cross-reactivity to other proteins. The bladder cancer antibodies may be coupled to standard affinity chromatography columns and used to purify bladder cancer proteins. The antibodies may also be used as blocking polypeptides, as outlined above, since they will specifically bind to the bladder cancer protein.

[0315] Methods of Identifying Variant Bladder Cancer-Associated Sequences

[0316] Without being bound by theory, expression of various bladder cancer sequences is correlated with bladder cancer. Accordingly, disorders based on mutant or variant bladder cancer genes may be determined. In one embodiment, the invention provides methods for identifying cells containing variant bladder cancer genes, e.g., determining all or part of the sequence of at least one endogenous bladder cancer genes in a cell. This may be accomplished using many sequencing techniques. In a preferred embodiment, the invention provides methods of identifying the bladder cancer genotype of an individual, e.g., determining all or part of the sequence of at least one bladder cancer gene of the individual. This is generally done in at least one tissue of the individual, and may include the evaluation of a number of tissues or different samples of the same tissue. The method may include comparing the sequence of the sequenced bladder cancer gene to a known bladder cancer gene, e.g., a wild-type gene.

[0317] The sequence of all or part of the bladder cancer gene can then be compared to the sequence of a known bladder cancer gene to determine if differences exist. This can be done using many known homology programs, such as Bestfit, etc. In a preferred embodiment, the presence of a difference in the sequence between the bladder cancer gene of the patient and the known bladder cancer gene correlates with a disease state or a propensity for a disease state, as outlined herein.

[0318] In a preferred embodiment, the bladder cancer genes are used as probes to determine the number of copies of the bladder cancer gene in the genome.

[0319] In another preferred embodiment, the bladder cancer genes are used as probes to determine the chromosomal localization of the bladder cancer genes. Information such as chromosomal localization finds use in providing a diagnosis or prognosis in particular when chromosomal abnormalities such as translocations, and the like are identified in the bladder cancer gene locus.

[0320] Administration of Pharmaceutical and Vaccine Compositions

[0321] In one embodiment, a therapeutically effective dose of a bladder cancer protein or modulator thereof, is administered to a patient. By “therapeutically effective dose” herein is meant a dose that produces effects for which it is administered. The exact dose will depend on the purpose of the treatment, and will be ascertainable by one skilled in the art using known techniques. See, e.g., Ansel, et al. (1999) Pharmaceutical Dosage Forms and Drug Delivery Lippincott; Lieberman (1992) Pharmaceutical Dosage Forms (vols. 1-3) Dekker, ISBN 0824770846, 082476918X, 0824712692, 0824716981; Lloyd (1999) The Art, Science and Technology of Pharmaceutical Compounding Amer. Pharma. Assn.; and Pickar (1999) Dosage Calculations Thomson. As is known in the art, adjustments for bladder cancer degradation, systemic versus localized delivery, and rate of new protease synthesis, as well as the age, body weight, general health, sex, diet, time of administration, drug interaction and the severity of the condition may be necessary, and will be ascertainable with routine experimentation by those skilled in the art. U.S. Ser. No. 09/687,576, further discloses the use of compositions and methods of diagnosis and treatment in bladder cancer and is hereby expressly incorporated by reference.

[0322] A “patient” for the purposes of the present invention includes both humans and other animals, particularly mammals. Thus the methods are applicable to both human therapy and veterinary applications. In the preferred embodiment the patient is a mammal, preferably a primate, and in the most preferred embodiment the patient is human.

[0323] The administration of the bladder cancer proteins and modulators thereof of the present invention can be done in a variety of ways as discussed above, including, but not limited to, orally, subcutaneously, intravenously, intranasally, transdermally, intraperitoneally, intramuscularly, intrapulmonary, vaginally, rectally, or intraocularly. In some instances, e.g., in the treatment of wounds and inflammation, the bladder cancer proteins and modulators may be directly applied as a solution or spray.

[0324] The pharmaceutical compositions of the present invention comprise a bladder cancer protein in a form suitable for administration to a patient. In the preferred embodiment, the pharmaceutical compositions are in a water soluble form, such as being present as pharmaceutically acceptable salts, which is meant to include both acid and base addition salts. “Pharmaceutically acceptable acid addition salt” refers to those salts that retain the biological effectiveness of the free bases and that are not biologically or otherwise undesirable, formed with inorganic acids such as hydrochloric acid, hydrobromic acid, sulfuric acid, nitric acid, phosphoric acid and the like, and organic acids such as acetic acid, propionic acid, glycolic acid, pyruvic acid, oxalic acid, maleic acid, malonic acid, succinic acid, fumaric acid, tartaric acid, citric acid, benzoic acid, cinnamic acid, mandelic acid, methanesulfonic acid, ethanesulfonic acid, p-toluenesulfonic acid, salicylic acid and the like. “Pharmaceutically acceptable base addition salts” include those derived from inorganic bases such as sodium, potassium, lithium, ammonium, calcium, magnesium, iron, zinc, copper, manganese, aluminum salts and the like. Particularly preferred are the ammonium, potassium, sodium, calcium, and magnesium salts. Salts derived from pharmaceutically acceptable organic non-toxic bases include salts of primary, secondary, and tertiary amines, substituted amines including naturally occurring substituted amines, cyclic amines and basic ion exchange resins, such as isopropylamine, trimethylamine, diethylamine, triethylamine, tripropylamine, and ethanolamine.

[0325] The pharmaceutical compositions may also include one or more of the following: carrier proteins such as serum albumin; buffers; fillers such as microcrystalline cellulose, lactose, corn and other starches; binding agents; sweeteners and other flavoring agents; coloring agents; and polyethylene glycol.

[0326] The pharmaceutical compositions can be administered in a variety of unit dosage forms depending upon the method of administration. For example, unit dosage forms suitable for oral administration include, but are not limited to, powder, tablets, pills, capsules and lozenges. It is recognized that bladder cancer protein modulators (e.g., antibodies, antisense constructs, ribozymes, small organic molecules, etc.) when administered orally, should be protected from digestion. This is typically accomplished either by complexing the molecule(s) with a composition to render it resistant to acidic and enzymatic hydrolysis, or by packaging the molecule(s) in an appropriately resistant carrier, such as a liposome or a protection barrier. Means of protecting agents from digestion are well known in the art.

[0327] The compositions for administration will commonly comprise a bladder cancer protein modulator dissolved in a pharmaceutically acceptable carrier, preferably an aqueous carrier. A variety of aqueous carriers can be used, e.g., buffered saline and the like. These solutions are sterile and generally free of undesirable matter. These compositions may be sterilized by conventional, well known sterilization techniques. The compositions may contain pharmaceutically acceptable auxiliary substances as required to approximate physiological conditions such as pH adjusting and buffering agents, toxicity adjusting agents and the like, e.g., sodium acetate, sodium chloride, potassium chloride, calcium chloride, sodium lactate and the like. The concentration of active agent in these formulations can vary widely, and will be selected primarily based on fluid volumes, viscosities, body weight and the like in accordance with the particular mode of administration selected and the patient's needs (e.g., Remington's Pharmaceutical Science (15th ed., 1980) and Hardman and Limbird (eds. 2001) Goodman and Gilman: The Pharmacologial Basis of Therapeutics McGraw-Hill.

[0328] Thus, a typical pharmaceutical composition for intravenous administration would be about 0.1-10 mg per patient per day. Dosages from about 0.1-100 mg per patient per day may be used, particularly when the drug is administered to a secluded site and not into the blood stream, such as into a body cavity or into a lumen of an organ. Substantially higher dosages are possible in topical administration. Actual methods for preparing parenterally administrable compositions will be known or apparent to those skilled in the art, e.g., Remington's Pharmaceutical Science and Goodman and Gilman: The Pharmacologial Basis of Therapeutics, supra.

[0329] The compositions containing modulators of bladder cancer proteins can be administered for therapeutic or prophylactic treatments. In therapeutic applications, compositions are administered to a patient suffering from a disease (e.g., a cancer) in an amount sufficient to cure or at least partially arrest the disease and its complications. An amount adequate to accomplish this is defined as a “therapeutically effective dose.” Amounts effective for this use will depend upon the severity of the disease and the general state of the patient's health. Single or multiple administrations of the compositions may be administered depending on the dosage and frequency as required and tolerated by the patient. The composition should provide a sufficient quantity of the agents of this invention to effectively treat the patient. An amount of modulator that is capable of preventing or slowing the development of cancer in a mammal is referred to as a “prophylactically effective dose.” The particular dose required for a prophylactic treatment will depend upon the medical condition and history of the mammal, the particular cancer being prevented, as well as other factors such as age, weight, gender, administration route, efficiency, etc. Such prophylactic treatments may be used, e.g., in a mammal who has previously had cancer to prevent a recurrence of the cancer, or in a mammal who is suspected of having a significant likelihood of developing cancer based, at least in part, upon gene expression profiles. Vaccine strategies may be used, in either a DNA vaccine form, or protein vaccine.

[0330] It will be appreciated that the present bladder cancer protein-modulating compounds can be administered alone or in combination with additional bladder cancer modulating compounds or with other therapeutic agent, e.g., other anti-cancer agents or treatments.

[0331] In numerous embodiments, one or more nucleic acids, e.g., polynucleotides comprising nucleic acid sequences set forth in Tables 1A-13, such as antisense polynucleotides or ribozymes, will be introduced into cells, in vitro or in vivo. The present invention provides methods, reagents, vectors, and cells useful for expression of bladder cancer-associated polypeptides and nucleic acids using in vitro (cell-free), ex vivo, or in vivo (cell or organism-based) recombinant expression systems.

[0332] The particular procedure used to introduce the nucleic acids into a host cell for expression of a protein or nucleic acid is application specific. Many procedures for introducing foreign nucleotide sequences into host cells may be used. These include the use of calcium phosphate transfection, spheroplasts, electroporation, liposomes, microinjection, plasma vectors, viral vectors, and other methods for introducing cloned genomic DNA, cDNA, synthetic DNA or other foreign genetic material into a host cell. See, e.g., Berger and Kimmel (1987) Guide to Molecular Cloning Techniques from Methods in Enzymology (vol.

[0333] 152) Academic Press; Ausubel, et al. (eds. 1999 and supplements) Current Protocols in Molecular Biology Lippincott; and Sambrook, et al. (1989) Molecular Cloning: A Laboratory Manual (2d ed., Vol. 1-3) CSH Press.

[0334] In a preferred embodiment, bladder cancer proteins and modulators are administered as therapeutic agents, and can be formulated as outlined above. Similarly, bladder cancer genes (including both the full-length sequence, partial sequences, or regulatory sequences of the bladder cancer coding regions) can be administered in a gene therapy application. These bladder cancer genes can include antisense applications, either as gene therapy (e.g., for incorporation into the genome) or as antisense compositions, as will be appreciated by those in the art.

[0335] Bladder cancer polypeptides and polynucleotides can also be administered as vaccine compositions to stimulate HTL, CTL, and antibody responses. Such vaccine compositions can include, e.g., lipidated peptides (Vitiello, et al. (1995) J. Clin. Invest. 95:341-349); peptide compositions encapsulated in poly(DL-lactide-co-glycolide) (“PLG”) microspheres (Eldridge, et al. (1991) Molec. Immunol. 28:287-294; Alonso, et al. (1994) Vaccine 12:299-306; Jones, et al. (1995) Vaccine 13:675-681); peptide compositions contained in immune stimulating complexes (ISCOMS) (Takahashi, et al. (1990) Nature 344:873-875; Hu, et al. (1998) Clin. Exp. Immunol. 113:235-243); multiple antigen peptide systems (MAPs) (Tam (1988) Proc. Nat'l Acad. Sci. USA 85:5409-5413; Tam (1996) J. Immunol. Methods 196:17-32); peptides formulated as multivalent peptides; peptides for use in ballistic delivery systems, typically crystallized peptides, viral delivery vectors (Perkus, et al. in Kaufmann (ed. 1996) Concepts in Vaccine Development de Gruyter; Chakrabarti, et al. (1986) Nature 320:535-537; Hu, et al. (1986) Nature 320:537-547; Kieny, et al. (1986) AIDS Bio/Technology4:790; Top, et al. (1971) J. Infect. Dis. 124:148-154; Chanda, et al. (1990) Virology 175:535-547), particles of viral or synthetic origin (see, e.g., Kofler, et al. (1996) J. Immunol. Methods 192:25-35; Eldridge, et al. (1993) Sem. Hematol. 30:16-24; Falo, et al. (1995) Nature Med. 7:649-653), adjuvants (Warren, et al. (1986) Annu. Rev. Immunol. 4:369-388; Gupta, et al. (1993) Vaccine 11:293-306), liposomes (Reddy, et al. (1992) J. Immunol. 148:1585-1589; Rock (1996) Immunol. Today 17:131-137), or, naked or particle absorbed cDNA (Ulmer, et al. (1993) Science 259:1745-1749; Robinson, et al. (1993) Vaccine 11:957-960; Shiver, et al. in Kaufmann (ed. 1996) Concepts in Vaccine Development de Gruyter; Cease and Berzofsky (1994) Annu. Rev. Immunol. 12:923-989; and Eldridge, et al. (1993) Sem. Hematol. 30:16-24). Toxin-targeted delivery technologies, also known as receptor mediated targeting, such as those of Avant Immunotherapeutics, Inc., Needham, Mass., may also be used.

[0336] Vaccine compositions often include adjuvants. Many adjuvants contain a substance designed to protect the antigen from rapid catabolism, such as aluminum hydroxide or mineral oil, and a stimulator of immune responses, such as lipid A, Bortadella pertussis or Mycobacterium tuberculosis derived proteins. Certain adjuvants are commercially available as, e.g., Freund's Incomplete Adjuvant and Complete Adjuvant (Difco Laboratories, Detroit, Mich.); Merck Adjuvant 65 (Merck and Company, Inc., Rahway, N.J.); AS-2 (SmithKline Beecham, Philadelphia, Pa.); aluminum salts such as aluminum hydroxide gel (alum) or aluminum phosphate; salts of calcium, iron or zinc; an insoluble suspension of acylated tyrosine; acylated sugars; cationically or anionically derivatized polysaccharides; polyphosphazenes; biodegradable microspheres; monophosphoryl lipid A and quil A. Cytokines, such as GM-CSF, interleukin-2,-7,-12, and other like growth factors, may also be used as adjuvants.

[0337] Vaccines can be administered as nucleic acid compositions wherein DNA or RNA encoding one or more of the polypeptides, or a fragment thereof, is administered to a patient. This approach is described, for instance, in Wolff, et al. (1990) Science 247:1465-1468 as well as U.S. Pat. Nos. 5,580,859; 5,589,466; 5,804,566; 5,739,118; 5,736,524; 5,679,647; WO 98/04720; and in more detail below. Examples of DNA-based delivery technologies include “naked DNA”, facilitated (bupivicaine, polymers, peptide-mediated) delivery, cationic lipid complexes, and particle-mediated (“gene gun”) or pressure-mediated delivery (see, e.g., U.S. Pat. No. 5,922,687).

[0338] For therapeutic or prophylactic immunization purposes, the peptides of the invention can be expressed by viral or bacterial vectors. Examples of expression vectors include attenuated viral hosts, such as vaccinia or fowlpox. This approach involves the use of vaccinia virus, e.g., as a vector to express nucleotide sequences that encode bladder cancer polypeptides or polypeptide fragments. Upon introduction into a host, the recombinant vaccinia virus expresses the immunogenic peptide, and thereby elicits an immune response. Vaccinia vectors and methods useful in immunization protocols are described in, e.g., U.S. Pat. No. 4,722,848. Another vector is BCG (Bacille Calmette Guerin). BCG vectors are described in Stover, et al. (1991) Nature 351:456-460. A wide variety of other vectors useful for therapeutic administration or immunization, e.g., adeno and adeno-associated virus vectors, retroviral vectors, Salmonella typhi vectors, detoxified anthrax toxin vectors, and the like. See, e.g., Shata, et al. (2000) Mol Med Today 6:66-71; Shedlock, et al. (2000) J. Leukoc. Biol. 68:793-806; Hipp, et al. (2000) In Vivo 14:571-85.

[0339] Methods for the use of genes as DNA vaccines are well known, and include placing a bladder cancer gene or portion of a bladder cancer gene under the control of a regulatable promoter or a tissue-specific promoter for expression in a bladder cancer patient. The bladder cancer gene used for DNA vaccines can encode full-length bladder cancer proteins, but more preferably encodes portions of the bladder cancer proteins including peptides derived from the bladder cancer protein. In one embodiment, a patient is immunized with a DNA vaccine comprising a plurality of nucleotide sequences derived from a bladder cancer gene. For example, bladder cancer-associated genes or sequence encoding subfragments of a bladder cancer protein are introduced into expression vectors and tested for their immunogenicity in the context of Class I MHC and an ability to generate cytotoxic T cell responses. This procedure provides for production of cytotoxic T cell responses against cells which present antigen, including intracellular epitopes.

[0340] In a preferred embodiment, the DNA vaccines include a gene encoding an adjuvant molecule with the DNA vaccine. Such adjuvant molecules include cytokines that increase the immunogenic response to the bladder cancer polypeptide encoded by the DNA vaccine. Additional or alternative adjuvants are available.

[0341] In another preferred embodiment bladder cancer genes find use in generating animal models of bladder cancer. When the bladder cancer gene identified is repressed or diminished in cancer tissue, gene therapy technology, e.g., wherein antisense RNA directed to the bladder cancer gene will also diminish or repress expression of the gene. Animal models of bladder cancer find use in screening for modulators of a bladder cancer-associated sequence or modulators of bladder cancer. Similarly, transgenic animal technology including gene knockout technology, e.g., as a result of homologous recombination with an appropriate gene targeting vector, will result in the absence or increased expression of the bladder cancer protein. When desired, tissue-specific expression or knockout of the bladder cancer protein may be necessary.

[0342] It is also possible that the bladder cancer protein is overexpressed in bladder cancer. As such, transgenic animals can be generated that overexpress the bladder cancer protein. Depending on the desired expression level, promoters of various strengths can be employed to express the transgene. Also, the number of copies of the integrated transgene can be determined and compared for a determination of the expression level of the transgene. Animals generated by such methods find use as animal models of bladder cancer and are additionally useful in screening for modulators to treat bladder cancer.

[0343] Kits for Use in Diagnostic and/or Prognostic Applications

[0344] For use in diagnostic, research, and therapeutic applications suggested above, kits are also provided by the invention. In the diagnostic and research applications such kits may include one or more of the following: assay reagents, buffers, bladder cancer-specific nucleic acids or antibodies, hybridization probes and/or primers, antisense or inhibitory polynucleotides, ribozymes, dominant negative bladder cancer polypeptides or polynucleotides, small molecules inhibitors of bladder cancer-associated sequences etc. A therapeutic product may include sterile saline or another pharmaceutically acceptable emulsion and suspension base.

[0345] In addition, the kits may include instructional materials containing directions (e.g., protocols) for the practice of the methods of this invention. While the instructional materials typically comprise written or printed materials they are not limited to such. A medium capable of storing such instructions and communicating them to an end user is contemplated by this invention. Such media include, but are not limited to electronic storage media (e.g., magnetic discs, tapes, cartridges, chips), optical media (e.g., CD ROM), and the like. Such media may include addresses to internet sites that provide such instructional materials.

[0346] The present invention also provides for kits for screening for modulators of bladder cancer-associated sequences. Such kits can be prepared from readily available materials and reagents. For example, such kits can comprise one or more of the following materials: a bladder cancer-associated polypeptide or polynucleotide, control positive or negative samples, reaction tubes, and instructions for testing bladder cancer-associated activity. Optionally, the kit contains biologically active bladder cancer protein. A wide variety of kits and components can be prepared according to the present invention, depending upon the intended user of the kit and the particular needs of the user. Diagnosis would typically involve evaluation of a plurality of genes or products. The genes will be selected based on correlations with important parameters in disease which may be identified in historical or outcome data.

EXAMPLES Example 1 Gene Chip Analysis

[0347] Molecular profiles of various normal and cancerous tissues were determined and analyzed using gene chips. RNA was isolated and gene chip analysis was performed as described (Glynne, et al. (2000) Nature 403:672-676; Zhao, et al. (2000) Genes Dev. 14:981-993).

Table Descriptions

[0348] Table 1A shows about 3413 that exhibit increased or decreased expression in bladder cancer samples. See U.S. S No. 60/302,814.

[0349] Table 2A shows about 485 genes overexpressed in bladder tumors relative to normal tissues as analyzed using the Affymetrix/Eos Hu03 GeneChip array. See U.S. S No. 60/343,705.

[0350] Table 3A shows about 414 genes upregulated in bladder cancer relative to normal body tissues and preferred for utility as small molecule, antibody, DNA vaccine targets for the therapy of bladder cancer. These genes were selected from 59680 probesets on the Eos/Affymetrix Hu03 Genechip array. Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0351] Table 4A shows about 129 genes upregulated in bladder cancer relative to normal body tissues and preferred for utility as diagnostics of bladder cancer. These genes were selected from 59680 probesets on the Eos/Affymetrix Hu03 Genechip array. Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0352] Table 5A shows about 149 genes upregulated in bladder cancer relative to normal body tissues. These genes were selected from 59680 probesets on the Eos/Affymetrix Hu03 Genechip array. Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0353] Table 6A shows about 199 genes upregulated in bladder cancer relative to normal bladder tissue. These genes were selected from 59680 probesets on the Eos/Affymetrix Hu03 Genechip array. Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0354] Table 7A shows about 63 genes downregulated in bladder tumors relative to normal bladder. These genes were selected from 59680 probesets on the Eos/Affymetrix Hu03 Genechip array. Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0355] Table 8A shows about 1440 genes upregulated in Ta or Ti bladder tumors from patients who later presented with muscle-invasive bladder tumors (stage T2-T4). Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0356] Table 9A shows about 1200 genes upregulated in Ta or TI tumors of patients who later presented with either more Ta tumors or no tumors at all. Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0357] Table 10A shows about 65 genes upregulated in non-invasive exophytic Ta bladder tumors relative to T2-T4 muscle-invasive tumors. Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0358] Table 11A shows about 106 genes upregulated in muscle-invasive T2-T4 bladder tumors relative to non-invasive exophytic Ta bladder tumors. Gene expression data for each probeset obtained from this analysis was expressed as average intensity (AI), a normalized value reflecting the relative level of mRNA expression.

[0359] Table 12A shows the Pkey, ExAccn, UnigeneID, and Unigene Title for all of the sequences in Table 13. Seq ID No. is used to link Table 12A to table 13.

[0360] Tables 1B-12B show the accession numbers for those Pkey's lacking UnigeneID's for tables 1A-12A, respectively. For each probeset is listed a gene cluster number from which oligonucleotides were designed. Gene clusters were compiled using sequences derived from Genbank ESTs and mRNAs. These sequences were clustered based on sequence similarity using Clustering and Alignment Tools (DoubleTwist, Oakland Calif.). Genbank accession numbers for sequences comprising each cluster are listed in the “Accession” column.

[0361] Tables 1C-12C show genomic positioning for Pkey's lacking Unigene ID's and accession numbers for tables 1A-12A, respectively. For each predicted exon, is listed genomic sequence source used for prediction. Nucleotide locations of each predicted exon are also listed. TABLE 1A Pkey ExAccn UnigeneID Unigene Title R1 R2 Target Type 400440 X83957 Hs.83870 nebulin 0.17 2.05 downregulate stage 400888 0.24 1.97 downregulate stage 401566 0.19 4.06 downregulate stage 401669 0.2 2.05 downregulate stage 401691 0.04 10.13 downregulate stage 401905 0.3 1.87 downregulate stage 402076 0.06 6.51 downregulate stage 402110 0.43 2.35 downregulate stage 402271 NM_002197 Hs.154721 aconitase 1, soluble 0.21 2.16 downregulate stage 403362 0.18 4.44 downregulate stage 403687 0.32 1.91 downregulate stage 403959 0.14 2.27 downregulate stage 404015 0.2 2.48 downregulate stage 404059 0.36 1.84 downregulate stage 404152 0.32 1.85 downregulate stage 404498 0.14 2.18 downregulate stage 404819 0.19 5.25 downregulate stage 405001 U58196 Hs.296281 interleukin enhancer binding factor 1 0.16 2.92 downregulate stage 405349 0.18 3.8 downregulate stage 405390 0.3 2.54 downregulate stage 405735 0.13 2.44 downregulate stage 405968 0.26 1.85 downregulate stage 406017 0.32 2.28 downregulate stage 406305 BE261320 Hs.297096 transcriptional adaptor 3 (ADA3, yeast h 0.42 1.93 downregulate stage 406320 0.37 2.01 downregulate stage 406704 M21665 Hs.929 myosin, heavy polypeptide 7, cardiac mus 0.3 2.84 downregulate stage 406706 X03740 Hs.231581 myosin, heavy polypeptide 1, skeletal mu 0.14 7.4 downregulate stage 406707 S73840 Hs.931 myosin, heavy polypeptide 2, skeletal mu 0.05 12.51 downregulate stage 407013 U35637 gb: Human nebulin mRNA, partial cds 0.14 2.17 downregulate stage 407245 X90568 Hs.172004 titin 0.02 15.21 downregulate stage 407330 AA582607 gb: nn51b05.s1 NCI_CGAP_Kid6 Homo sapiens 0.42 1.87 downregulate stage 407571 AI446183 Hs.9572 ESTs 0.38 2.13 downregulate stage 407682 AL035858 Hs.3807 FXYD domain-containing ion transport reg 0.34 2.56 downregulate stage 407815 AW373860 Hs.301716 ESTs 0.31 2.44 downregulate stage 407834 AW084991 Hs.26100 ESTs 0.15 2.98 downregulate stage 407891 AA486620 Hs.41135 endomucin-2 0.15 3.33 downregulate stage 407906 AA369665 Hs.41185 Homo sapiens mRNA; cDNA DKFZp564O1262 (f 0.12 8.05 downregulate stage 407938 AA905097 Hs.85050 phospholamban 0.08 8.77 downregulate stage 407965 W21483 Hs.41707 heat shock 27 kD protein 3 0.26 2.29 downregulate stage 408009 AF020498 Hs.41735 purinergic receptor P2X, ligand-gated io 0.49 1.91 downregulate stage 408139 AA451966 Hs.43005 RAB9-like protein 0.41 1.88 downregulate stage 408221 AA912183 Hs.47447 ESTs 0.04 24.1 downregulate stage 408374 AW025430 Hs.155591 forkhead box F1 0.35 2.85 downregulate stage 408493 BE206854 Hs.46039 phosphoglycerate mutase 2 (muscle) 0.09 9.04 downregulate stage 408508 AI806109 Hs.135736 KIAA1580 protein 0.45 2.2 downregulate stage 408614 AL137698 Hs.46531 Homo sapiens mRNA; cDNA DKFZp434C1915 (f 0.13 5.48 downregulate stage 408652 R43409 Hs.6829 ESTs 0.33 2.5 downregulate stage 408753 AI337192 Hs.47438 SH3 domain binding glutamic acid-rich pr 0.05 6.94 downregulate stage 408896 AI610447 Hs.48778 niban protein 0.39 2.01 downregulate stage 409277 T05558 Hs.156880 ESTs 0.18 2.75 downregulate stage 410023 AB017169 Hs.57929 slit (Drosophila) homolog 3 0.07 2.7 downregulate stage 410036 R57171 Hs.57975 calsequestrin 2, cardiac muscle 0.09 5.23 downregulate stage 410132 NM_003480 Hs.58882 Microfibril-associated glycoprotein-2 0.24 2.34 downregulate stage 410168 AW834050 Hs.9973 tensin 0.39 2.17 downregulate stage 410243 D83402 Hs.289006 ESTs, Weakly similar to alternatively sp 0.11 2.82 downregulate stage 410339 AI916499 Hs.298258 ESTs 0.15 2.16 downregulate stage 410677 NM_003278 Hs.65424 tetranectin (plasminogen-binding protein 0.32 2.65 downregulate stage 410868 T06529 Hs.98518 Homo sapiens cDNA FLJ11490 fis, clone HE 0.2 2.74 downregulate stage 411048 AK001742 Hs.67991 hypothetical protein DKFZp434G0522 0.2 1.92 downregulate stage 411067 AI681006 Hs.301543 ESTs 0.11 3.41 downregulate stage 411069 AL133092 Hs.68055 hypothetical protein DKFZp434I0428 0.17 5.8 downregulate stage 411644 H92064 Hs.301548 ESTs 0.06 13.8 downregulate stage 411741 AW859650 gb: RC0-CT0358-071299-011-d03 CT0358 Homo 0.36 2.5 downregulate stage 412047 AA934589 Hs.49696 ESTs 0.18 3.57 downregulate stage 412095 AI624707 Hs.5921 Homo sapiens cDNA: FLJ21592 fis, clone C 0.32 1.89 downregulate stage 412389 AW947655 gb: RC0-MT0003-140300-031-b07 MT0003 Homo 0.38 2.6 downregulate stage 412442 AI983730 Hs.26530 serum deprivation response (phosphatidyl 0.12 3.67 downregulate stage 412519 AA196241 Hs.73980 troponin T1, skeletal, slow 0.24 1.86 downregulate stage 412622 AW664708 Hs.171959 ESTs 0.06 5.45 downregulate stage 412649 NM_002206 Hs.74369 integrin, alpha 7 0.29 2.95 downregulate stage 412659 AW753865 Hs.74376 olfactomedin related ER localized protei 0.18 2.06 downregulate stage 412758 Y07818 Hs.74566 dihydropyrimidinase-like 3 0.3 2.23 downregulate stage 412802 U41518 Hs.74602 aquaporin 1 (channel-forming integral pr 0.11 2.71 downregulate stage 412975 T70956 Hs.75106 clusterin (complement lysis inhibitor, S 0.44 2.03 downregulate stage 413074 AI871368 Hs.8417 ESTs 0.47 1.91 downregulate stage 413272 AA127923 Hs.293256 ESTs 0.09 4.44 downregulate stage 413276 Z24725 Hs.75260 mitogen inducible 2 0.23 2.48 downregulate stage 413508 BE145364 gb: IL0-HT0198-151099-125-e05 HT0198 Homo 0.31 2.53 downregulate stage 413624 BE177019 Hs.75445 SPARC-like 1 (mast9, hevin) 0.33 2.17 downregulate stage 413778 AA090235 Hs.75535 myosin, light polypeptide 2, regulatory, 0.33 2.63 downregulate stage 414063 H26904 Hs.75736 apolipoprotein D 0.42 1.85 downregulate stage 414241 AA425085 Hs.4007 Sarcolemmal-associated protein 0.16 2.22 downregulate stage 414290 AI568801 Hs.71721 ESTs 0.02 10 downregulate stage 414629 AA345824 Hs.76688 carboxylesterase 1 (monocyte/macrophage 0.13 4.14 downregulate stage 414657 AA424074 Hs.76780 protein phosphatase 1, regulatory (inhib 0.33 2.14 downregulate stage 414712 N88858 Hs.77039 ribosomal protein S3A 0.4 2.5 downregulate stage 414903 AA451700 Hs.85835 Homo sapiens cDNA: FLJ22841 fis, clone K 0.3 3.3 downregulate stage 415165 AW887604 Hs.78065 complement component 7 0.04 3.41 downregulate stage 415274 AF001548 Hs.78344 myosin, heavy polypeptide 11, smooth mus 0.2 3.29 downregulate stage 415447 Z97171 Hs.78454 myocilin, trabecular meshwork inducible 0.15 6.55 downregulate stage 415672 N53097 Hs.193579 ESTs 0.28 3.55 downregulate stage 415934 NM_000928 Hs.992 phospholipase A2, group IB (pancreas) 0.34 2.64 downregulate stage 416127 N49843 Hs.79022 GTP-binding protein overexpressed in ske 0.3 1.98 downregulate stage 416349 X69089 Hs.79227 myomesin (M-protein) 2 (165 kD) 0.41 1.96 downregulate stage 416585 X54162 Hs.79386 leiomodin 1 (smooth muscle) 0.02 49.3 downregulate stage 416854 H40164 Hs.80296 Purkinje cell protein 4 0.02 7.55 downregulate stage 416941 BE000150 Hs.48778 niban protein 0.27 2.16 downregulate stage 416982 J05401 Hs.80691 creatine kinase, mitochondrial 2 (sarcom 0.29 2.43 downregulate stage 417011 F08212 Hs.234898 ESTs 0.41 2.06 downregulate stage 417298 AW665639 Hs.37958 ESTs 0.27 3.7 downregulate stage 417501 AL041219 Hs.82222 sema domain, immunoglobulin domain (lg), 0.39 2.08 downregulate stage 417553 L09190 Hs.82276 trichohyalin 0.29 2.59 downregulate stage 417987 AA210872 Hs.50133 ESTs 0.22 2.09 downregulate stage 418297 R91254 gb: yp94e12.s1 Soares fetal liver spleen 0.28 1.9 downregulate stage 418332 R34976 Hs.78293 ESTs 0.2 3.9 downregulate stage 418391 NM_003281 Hs.84673 troponin I, skeletal, slow 0.35 2.02 downregulate stage 418409 AA219332 Hs.120869 ESTs, Weakly similar to AF092922 1 retin 0.21 3.8 downregulate stage 418421 R58620 Hs.85050 phospholamban 0.2 2.08 downregulate stage 418489 U76421 Hs.85302 adenosine deaminase, RNA-specific, B1 (h 0.05 21.55 downregulate stage 418533 NM_004533 Hs.85937 myosin-binding protein C, fast-type 0.42 1.95 downregulate stage 418787 AW296134 Hs.86999 ESTs 0.48 1.87 downregulate stage 418793 AW382987 Hs.88474 prostaglandin-endoperoxide synthase 1 (p 0.26 2.43 downregulate stage 418947 W52990 Hs.22860 ESTs 0.13 7.18 downregulate stage 419037 R39895 Hs.7864 ESTs 0.27 2 downregulate stage 419441 AW023731 Hs.274368 Homo sapiens mRNA; cDNA DKFZp586I1524 (f 0.19 5.25 downregulate stage 419535 AW139550 Hs.115173 ESTs 0.31 2.59 downregulate stage 419682 H13139 Hs.92282 paired-like homeodomain transcription fa 0.28 2.38 downregulate stage 419685 W76083 Hs.173077 ESTs 0.4 2.21 downregulate stage 419703 AI793257 Hs.128151 ESTs 0.09 3.52 downregulate stage 419942 U25138 Hs.93841 potassium large conductance calcium-acti 0.28 2.96 downregulate stage 420058 AK001423 Hs.94694 Homo sapiens cDNA FLJ10561 fis, clone NT 0.3 2.09 downregulate stage 420195 N44348 Hs.300794 ESTs 0.22 2.79 downregulate stage 420261 AW206093 Hs.748 fibroblast growth factor receptor 1 (fms 0.35 1.98 downregulate stage 420674 NM_000055 Hs.1327 butyrylcholinesterase 0.29 3.5 downregulate stage 421296 NM_002666 Hs.103253 perilipin 0.36 2.11 downregulate stage 421639 NM_012082 Hs.297921 Homo sapiens mRNA full length insert cDN 0.13 4.3 downregulate stage 421763 AW163500 Hs.108080 cysteine and glycine-rich protein 1 0.26 3.49 downregulate stage 421853 AL117472 Hs.108924 DKFZP586P1422 protein 0.14 5 downregulate stage 422103 AA984330 Hs.111676 protein kinase H11; small stress protein 0.2 2.29 downregulate stage 422287 F16365 Hs.114346 cytochrome c oxidase subunit VIIa polype 0.27 2.58 downregulate stage 422320 AI745249 Hs.23650 ESTs, Weakly similar to AAB47496 NG5 [H. 0.24 2.95 downregulate stage 422633 X56832 Hs.118804 enolase 3, (beta, muscle) 0.23 3.57 downregulate stage 422639 AI929377 Hs.173724 creatine kinase, brain 0.39 1.97 downregulate stage 423334 AK000906 Hs.127273 hypothetical protein FLJ10044 0.37 2.29 downregulate stage 423587 AA328074 Hs.284256 hypothetical protein FLJ14033 similar to 0.37 2.47 downregulate stage 423889 AL035447 Hs.134594 hypothetical protein LOC57158 0.24 2.43 downregulate stage 424181 AL039482 Hs.142517 Homo sapiens mRNA; cDNA DKFZp434P0810 (f 0.27 2.28 downregulate stage 424206 NM_003734 Hs.198241 amine oxidase, copper containing 3 (vasc 0.3 2.59 downregulate stage 424479 AF064238 Hs.149098 smoothelin 0.26 3.29 downregulate stage 424580 AA446539 Hs.35092 ESTs 0.15 2.57 downregulate stage 424846 AU077324 Hs.1832 neuropeptide Y 0.4 2.04 downregulate stage 424938 AW102607 Hs.245233 ESTs 0.29 2.16 downregulate stage 424982 U94777 Hs.154084 phosphorylase, glycogen; muscle (McArdle 0.42 1.89 downregulate stage 425383 D83407 Hs.156007 Down syndrome critical region gene 1-lik 0.14 1.86 downregulate stage 425545 N98529 Hs.158295 Human mRNA for myosin light chain 3 (MLC 0.03 13.25 downregulate stage 425622 AW360847 Hs.16578 ESTs 0.3 2.19 downregulate stage 425751 T19239 Hs.1940 crystallin, alpha B 0.47 1.92 downregulate stage 425869 AA524547 Hs.160318 FXYD domain-containing ion transport reg 0.45 1.85 downregulate stage 425887 AL049443 Hs.161283 Homo sapiens mRNA; cDNA DKFZp586N2020 (f 0.19 2.85 downregulate stage 425932 M81650 Hs.1968 semenogelin I 0.02 16.3 downregulate stage 426354 NM_004010 Hs.169470 dystrophin (muscular dystrophy, Duchenne 0.27 2.52 downregulate stage 426429 X73114 Hs.169849 myosin-binding protein C, slow-type 0.1 10.3 downregulate stage 426752 X69490 Hs.172004 titin 0.03 31.3 downregulate stage 426809 BE313114 Hs.29706 ESTs 0.34 2.95 downregulate stage 427078 AI676062 Hs.111902 ESTs 0.22 2.11 downregulate stage 427136 AL117415 Hs.173716 Homo sapiens mRNA; cDNA DKFZp434K0521 (f 0.37 2.33 downregulate stage 427164 AB037721 Hs.173871 KIAA1300 protein 0.12 5.47 downregulate stage 427185 AA398930 Hs.186674 ESTs 0.22 4.65 downregulate stage 427373 AB007972 Hs.177533 Homo sapiens mRNA; cDNA DKFZp586N0318 (f 0.22 3.18 downregulate stage 427393 AB029018 Hs.177635 KIAA1095 protein 0.27 2.13 downregulate stage 427665 AF134803 Hs.180141 cofilin 2 (muscle) 0.05 4 downregulate stage 427676 AA394062 Hs.180266 tropomyosin 2 (beta) 0.45 1.87 downregulate stage 427888 AA417088 Hs.137598 ESTs 0.36 2.04 downregulate stage 427980 AA418305 gb: zv96g05.s1 Soares_NhHMPu_S1 Home sapi 0.32 2.39 downregulate stage 428087 AA100573 Hs.182421 troponin C2, fast 0.17 4.37 downregulate stage 428138 AA773842 Hs.293799 ESTs 0.45 2.2 downregulate stage 428221 U96781 Hs.183075 ESTs, Highly similar to Ca2+ ATPase of f 0.23 3.36 downregulate stage 428329 AA426091 Hs.98453 ESTs 0.21 2.09 downregulate stage 428409 AW117207 Hs.98523 ESTs 0.1 7.63 downregulate stage 428411 AW291464 Hs.10338 ESTs 0.32 1.98 downregulate stage 428648 AF052728 Hs.188021 potassium voltage-gated channel, subfami 0.08 2.99 downregulate stage 428649 AL045716 Hs.188228 Homo sapiens cDNA FLJ11003 fis, clone PL 0.11 2.07 downregulate stage 428899 AA744610 Hs.194431 palladin 0.42 1.84 downregulate stage 429350 AI754634 Hs.131987 ESTs 0.06 4.73 downregulate stage 429525 N92540 Hs.205353 ectonucleoside triphosphate diphosphohyd 0.18 2.31 downregulate stage 429545 AI824164 Hs.77667 lymphocyte antigen 6 complex, locus E 0.31 2.07 downregulate stage 429655 U48959 Hs.211582 myosin, light polypeptide kinase 0.33 2.18 downregulate stage 429892 NM_003803 Hs.2504 myomesin 1 (skelemin) (185 kD) 0.36 2.17 downregulate stage 429930 AI580809 Hs.99569 ESTs 0.18 5.6 downregulate stage 429956 AI374651 Hs.22542 ESTs 0.22 4.45 downregulate stage 430013 AA463833 Hs.151275 ESTs 0.21 3.03 downregulate stage 430271 T06199 Hs.237506 heat shock cognate 40 0.47 1.85 downregulate stage 430310 U60115 Hs.239069 four and a half LIM domains 1 0.18 3.44 downregulate stage 430418 R98852 Hs.36029 heart and neural crest derivatives expre 0.38 2.26 downregulate stage 430699 AW969847 Hs.292718 ESTs, Weakly similar to RET2_HUMAN RETIN 0.16 2.52 downregulate stage 430712 AW044647 Hs.196284 ESTs 0.29 1.94 downregulate stage 430778 D90337 Hs.247916 natriuretic peptide precursor C 0.14 4.48 downregulate stage 430998 AF128847 Hs.204038 indolethylamine N-methyltransferase 0.35 1.87 downregulate stage 432247 AA531287 Hs.105805 ESTs 0.21 3.99 downregulate stage 432689 AB018320 Hs.278626 Arg/Abl-interacting protein ArgBP2 0.11 1.98 downregulate stage 432792 AA448114 Hs.278950 protocadherin beta 1 0.22 2.93 downregulate stage 433142 AL120697 Hs.110640 ESTs 0.21 2.18 downregulate stage 433633 AI880516 Hs.84630 ESTs 0.34 2.67 downregulate stage 433688 AA628467 Hs.112572 Homo sapiens cDNA FLJ14130 fis, clone MA 0.35 2.27 downregulate stage 433826 AA609938 Hs.144492 ESTs 0.24 1.91 downregulate stage 434025 AF114264 Hs.216381 Homo sapiens clone HH409 unknown mRNA 0.07 3.46 downregulate stage 434160 BE551196 Hs.114275 ESTs 0.5 2 downregulate stage 434352 AF129505 Hs.86492 small muscle protein, X-linked 0.34 2.13 downregulate stage 434361 AF129755 Hs.117772 ESTs 0.03 31.3 downregulate stage 435731 AA699581 Hs.186811 ESTs 0.31 3.25 downregulate stage 435869 AF255910 Hs.54650 vascular endothelial junction-associated 0.21 3.73 downregulate stage 435978 AF272899 Hs.135118 Homo sapiens PR-domain zinc finger prote 0.35 2.25 downregulate stage 436359 Z83806 gb: H. sapiens mRNA for axonemal dynein he 0.24 3.28 downregulate stage 436638 AI271945 Hs.134984 ESTs 0.36 1.87 downregulate stage 436953 AW959074 Hs.23648 Homo sapiens cDNA FLJ13097 fis, clone NT 0.14 6.95 downregulate stage 437176 AW176909 Hs.42346 calcineurin-binding protein calsarcin-1 0.32 2.19 downregulate stage 437233 D81448 Hs.153961 ARP1 (actin-related protein 1, yeast) ho 0.27 2.38 downregulate stage 438619 AB032773 Hs.6341 TU12B1-TY protein 0.19 2.69 downregulate stage 438666 AW014493 Hs.126727 ESTs 0.16 1.98 downregulate stage 439231 AW581935 Hs.141480 ESTs 0.1 3.9 downregulate stage 439973 AI733308 Hs.124663 ESTs 0.16 6.2 downregulate stage 440172 AA868584 Hs.126154 ESTs 0.24 2.34 downregulate stage 440274 R24595 Hs.7122 scrapie responsive protein 1 0.11 3.02 downregulate stage 440687 AL080222 Hs.7358 hypothetical protein FLJ13110 0.19 2.95 downregulate stage 440700 AW952281 Hs.296184 ESTs, Highly similar to GB01_HUMAN GUANI 0.13 2.69 downregulate stage 440737 AI375167 Hs.132221 Homo sapiens cDNA FLJ12401 fis, clone MA 0.5 2 downregulate stage 441805 AA285136 Hs.7974 neuronal specific transcription factor D 0.07 13.55 downregulate stage 441969 AI733386 Hs.129194 ESTs, Weakly similar to ALU1_HUMAN ALU S 0.38 1.86 downregulate stage 442109 BE218975 Hs.212395 ESTs 0.24 2.86 downregulate stage 442985 AI025984 Hs.55467 ESTs 0.19 2 downregulate stage 443060 D78874 Hs.8944 procollagen C-endopeptidase enhancer 2 0.09 3.66 downregulate stage 443164 AI038503 Hs.55780 ESTs, Weakly similar to ALU1_HUMAN ALU S 0.2 1.86 downregulate stage 443476 AW068594 Hs.133878 ESTs, Weakly similar to AF151889 1 CGI-1 0.11 2.79 downregulate stage 443604 C03577 Hs.9615 myosin regulatory light chain 2, smooth 0.24 3.41 downregulate stage 443790 NM_003500 Hs.9795 acyl-Coenzyme A oxidase 2, branched chai 0.28 3.6 downregulate stage 443932 AW888222 Hs.9973 tensin 0.32 2.57 downregulate stage 444195 AB002351 Hs.10587 KIAA0353 protein 0.19 4.04 downregulate stage 444484 AK002126 Hs.11260 hypothetical protein FLJ11264 0.38 2.04 downregulate stage 444684 AW044070 Hs.147037 ESTs 0.36 2.25 downregulate stage 444793 U89281 Hs.11958 oxidative 3 alpha hydroxysteroid dehydro 0.29 2.19 downregulate stage 444938 AW470690 Hs.148814 ESTs 0.43 2.3 downregulate stage 445230 U97018 Hs.12451 echinoderm microtubule-associated protei 0.13 2.64 downregulate stage 445235 AI564022 Hs.138207 ESTs 0.13 2.4 downregulate stage 445621 AI733818 Hs.145549 ESTs 0.25 1.91 downregulate stage 445687 W80382 Hs.149297 ESTs 0.2 3.5 downregulate stage 445850 AI262049 Hs.145560 ESTs 0.53 1.9 downregulate stage 446406 AI553681 Hs.25248 ESTs 0.07 3.25 downregulate stage 446500 U78093 Hs.15154 sushi-repeat-containing protein, X chrom 0.33 1.9 downregulate stage 447595 AW379130 Hs.18953 phosphodiesterase 9A 0.28 1.85 downregulate stage 447918 AI129320 Hs.16930 ESTs 0.29 2.46 downregulate stage 448076 AJ133123 Hs.20196 adenylate cyclase 9 0.2 2.27 downregulate stage 448283 AI340462 Hs.182979 ribosomal protein L12 0.53 1.9 downregulate stage 448303 BE622468 Hs.11924 ESTs, Weakly similar to ALU1_HUMAN ALU S 0.39 1.84 downregulate stage 448425 AI500359 Hs.233401 ESTs 0.16 1.97 downregulate stage 448429 D17408 Hs.21223 calponin 1, basic, smooth muscle 0.12 5.43 downregulate stage 448555 AI536697 Hs.159863 ESTs 0.32 2.86 downregulate stage 448901 AK001021 Hs.22505 hypothetical protein FLJ10159 0.17 2.66 downregulate stage 448999 AF179274 Hs.22791 transmembrane protein with EGF-like and 0.24 1.86 downregulate stage 449226 AB002365 Hs.23311 KIAA0367 protein 0.1 4.96 downregulate stage 449238 AA428229 Hs.85524 muscle-specific RING-finger protein homo 0.14 2.53 downregulate stage 449422 AA001373 Hs.59821 ESTs 0.43 2.3 downregulate stage 449690 AA002140 Hs.33024 ESTs 0.5 2 downregulate stage 449874 AA135688 Hs.10083 ESTs 0.33 2.7 downregulate stage 449925 AI342493 Hs.24192 Homo sapiens cDNA FLJ20767 fis, clone CO 0.11 5.57 downregulate stage 450300 AL041440 Hs.58210 ESTs 0.41 2.13 downregulate stage 450578 AI971773 Hs.232268 ESTs 0.44 2.25 downregulate stage 450810 BE207588 Hs.25511 transforming growth factor beta 1 induce 0.51 1.86 downregulate stage 450831 R37974 Hs.25255 ESTs 0.23 1.96 downregulate stage 451331 AK002039 Hs.26243 Homo sapiens cDNA FLJ11177 fis, clone PL 0.37 2.18 downregulate stage 451533 NM_004657 Hs.26530 serum deprivation response (phosphatidyl 0.1 9.36 downregulate stage 451782 AF233588 Hs.27018 Ris 0.35 2.43 downregulate stage 451948 AW452473 Hs.211125 ESTs 0.43 1.88 downregulate stage 452422 AA521416 Hs.22701 ESTs 0.41 1.85 downregulate stage 452463 R36452 Hs.300817 ESTs 0.09 4.05 downregulate stage 452776 AA194540 Hs.13522 ESTs 0.36 2.16 downregulate stage 452814 AI092790 Hs.55016 hypothetical protein FLJ21935 0.06 4.7 downregulate stage 453064 R40334 Hs.301395 Homo sapiens cDNA: FLJ21204 fis, clone C 0.07 4.47 downregulate stage 453351 AI625721 Hs.61814 Homo sapiens cDNA: FLJ22750 fis, clone K 0.33 3.05 downregulate stage 453355 AW295374 Hs.31412 Homo sapiens cDNA FLJ11422 fis, clone HE 0.03 7.14 downregulate stage 453359 AA448787 Hs.24872 ESTs, Weakly similar to aortic carboxype 0.4 1.92 downregulate stage 453464 AI884911 Hs.32989 receptor (calcitonin) activity modifying 0.24 3.29 downregulate stage 453500 AI478427 Hs.43125 ESTs 0.02 11.41 downregulate stage 453582 AW854339 Hs.33476 hypothetical protein FLJ11937 0.39 2.04 downregulate stage 453586 AA248089 Hs.50841 ESTs, Weakly similar to tuftelin [M. musc 0.43 1.86 downregulate stage 453666 AW015681 Hs.135229 ESTs, Moderately similar to AF107203 1 a 0.28 2.42 downregulate stage 453698 AA037615 Hs.42746 ESTs 0.2 1.88 downregulate stage 453702 AA037637 Hs.42128 ESTs 0.32 2.42 downregulate stage 453725 W28543 gb: 48c5 Human retina cDNA randomly prime 0.2 2.06 downregulate stage 453950 AA156998 Hs.211568 eukaryotic translation initiation factor 0.07 7.86 downregulate stage 454078 AA601518 Hs.22209 secreted modular calcium-binding protein 0.16 2.49 downregulate stage 454471 AW902125 gb: QV0-NN1022-120500-220-h12 NN1022 Homo 0.41 2.45 downregulate stage 454637 AW811613 gb: CM3-ST0157-300999-017-f06 ST0157 Homo 0.18 2.2 downregulate stage 454750 AW866285 gb: QV4-SN0024-080400-167-a09 SN0024 Homo 0.49 2.05 downregulate stage 455073 AW854829 gb: QV2-CT0261-201099-011-f01 CT0261 Homo 0.27 2.09 downregulate stage 455485 AA102287 Hs.26756 Homo sapiens cDNA: FLJ20896 fis, clone A 0.32 2.07 downregulate stage 455611 L06419 Hs.75093 procollagen-lysine, 2-oxoglutarate 5-dio 0.15 2.87 downregulate stage 456100 AI983981 Hs.189114 ESTs 0.4 2.5 downregulate stage 456841 AA875863 Hs.152345 poliovirus receptor-related 1 (herpesvir 0.35 1.9 downregulate stage 457064 AA776743 Hs.191589 ESTs 0.17 2.34 downregulate stage 457108 N74724 Hs.108479 ESTs 0.48 2.1 downregulate stage 457506 AF131757 Hs.274533 Homo sapiens clone 24926 mRNA sequence 0.29 2.59 downregulate stage 457625 T10073 gb: seq1293 b4HB3MA Cot8-HAP-Ft Homo sapi 0.29 3.45 downregulate stage 458482 AV648858 Hs.29488 ESTs 0.26 2.17 downregulate stage 458622 AA972412 Hs.13755 f-box and WD-40 domain protein 2 0.51 1.95 downregulate stage 458841 W28965 gb: 54d10 Human retina cDNA randomly prim 0.32 3.1 downregulate stage 459037 AW439497 Hs.290656 EST 0.43 2.35 downregulate stage 400762 0.71 0.4 early stage 400937 1.2 0.26 early stage 400977 0.63 0.48 early stage 401024 0.8 0.3 early stage 401048 1.9 0.22 early stage 401537 1.3 0.2 early stage 401619 3.5 0.19 early stage 402089 0.39 0.55 early stage 402176 0.35 0.91 early stage 402407 1 0.15 early stage 402430 0.28 1.25 early stage 402435 2.15 0.21 early stage 402522 1.8 0.14 early stage 402546 0.17 1.66 early stage 402604 0.41 0.66 early stage 402716 0.14 0.86 early stage 402846 0.61 0.52 early stage 402922 0.14 0.83 early stage 403567 0.44 0.49 early stage 403590 1 0.34 early stage 404336 0.49 0.44 early stage 404345 AA730407 Hs.159156 protocadherin 11 0.38 0.4 early stage 404501 AW247252 Hs.75514 nucleoside phosphorylase 0.32 0.8 early stage 404594 0.37 0.91 early stage 404874 1.87 0.26 early stage 404881 0.36 0.5 early stage 404896 NM_000429 Hs.106845 methionine adenosyltransferase I, alpha 1 0.36 early stage 404999 U58196 Hs.296281 interleukin enhancer binding factor 1 0.19 1.06 early stage 405071 0.19 0.77 early stage 405308 0.4 0.55 early stage 405463 0.41 1 early stage 405580 1.89 0.19 early stage 405600 0.22 0.63 early stage 405720 0.37 0.61 early stage 405863 0.53 0.26 early stage 405867 0.24 1.1 early stage 405920 0.39 1.15 early stage 406036 2.15 0.17 early stage 406243 0.32 1.23 early stage 406367 0.38 0.76 early stage 406834 AI318680 gb: ta49g09.x1 NCI_CGAP_Lu25 Homo sapiens 0.4 0.67 early stage 406881 D16154 gb: Human gene for cytochrome P-450c 11, e 0.14 1.55 early stage 407411 AF060170 gb: Homo sapiens AS12 protein mRNA, parti 0.39 0.69 early stage 407639 AW205369 Hs.252936 ESTs 0.61 0.34 early stage 408112 AW451982 Hs.248613 ESTs 0.2 0.54 early stage 408732 AL117490 Hs.47225 Homo sapiens mRNA; cDNA DKFZp434N211 (fr 1 0.32 early stage 409103 AF251237 Hs.112208 XAGE-1 protein 0.33 1.03 early stage 409840 AW502122 gb: UI-HF-BR0p-ajr-c-08-0-UI.r1 NIH_MGC_5 0.56 0.28 early stage 410128 AW904599 gb: RC1-NN1063-260400-011-h05 NN1063 Homo 1.26 0.37 early stage 411474 AW848427 gb: IL3-CT0214-150200-075-H10 CT0214 Homo 1 0.14 early stage 412564 X83703 Hs.74019 cardiac ankyrin repeat protein 0.36 0.44 early stage 413266 BE300352 gb: 600944231F1 NIH_MGC_17 Homo sapiens c 1.46 0.25 early stage 413341 H78472 Hs.191325 ESTs, Weakly similar to cDNA EST yk414c9 0.41 0.48 early stage 414055 AW818687 Hs.5366 Homo sapiens cDNA: FLJ21522 fis, clone C 0.33 0.67 early stage 414170 AA335996 Hs.3743 matrix metalloproteinase 24 (membrane-in 1.15 0.21 early stage 414220 BE298094 gb: 601118231F1 NIH_MGC_17 Homo sapiens c 0.16 0.52 early stage 414276 BE297862 gb: 601174780F1 NIH_MGC_17 Homo sapiens c 1.75 0.2 early stage 414327 BE408145 Hs.185254 ESTs, Moderately similar to NAC-1 protei 0.1 0.99 early stage 414366 BE549143 gb: 601076456F1 NIH_MGC_12 Homo sapiens c 1 0.31 early stage 414376 BE393856 Hs.66915 ESTs, Weakly similar to 16.7 Kd protein[ 0.18 0.96 early stage 414555 N98569 Hs.76422 phospholipase A2, group IIA (platelets, 0.48 0.67 early stage 415199 AA161125 Hs.57893 ESTs 0.75 0.72 early stage 417304 H15635 gb: ym27h06.r1 Soares infant brain 1NIB H 0.6 0.58 early stage 417371 N74613 Hs.269149 ESTs 0.3 0.58 early stage 418133 R43504 Hs.6181 ESTs 1.28 0.29 early stage 419273 BE271180 Hs.293490 ESTs 0.54 0.28 early stage 419716 AA953770 gb: on89e04.s1 Soares_NFL_T_GBC_S1 Homo s 0.45 0.66 early stage 420390 AA330047 Hs.191187 ESTs 1.45 0.12 early stage 421745 AF205849 Hs.107740 Kruppel-like factor 2 (lung) 0.33 0.71 early stage 421813 BE048255 gb: tz49b05.y1 NCI_CGAP_Brn52 Homo sapien 0.52 0.67 early stage 422669 H12402 Hs.119122 ribosomal protein L13a 1 0.26 early stage 422743 BE304678 Hs.119598 ribosomal protein L3 0.2 0.57 early stage 422760 BE409561 gb: 601299865F1 NIH_MGC_21 Homo sapiens c 0.41 0.64 early stage 422880 AF228704 Hs.121524 glutathione reductase 3.75 0.1 early stage 423457 F08208 Hs.155606 paired mesoderm homeo box 1 0.55 0.54 early stage 425349 AA425234 Hs.79886 ribose 5-phosphate isomerase A (ribose 5 1 0.21 early stage 425360 BE547704 gb: 601076309F1 NIH_MGC_12 Homo sapiens c 0.28 0.85 early stage 426356 BE536836 gb: 601064837F1 NIH_MGC_10 Homo sapiens c 0.31 0.69 early stage 426521 AF161445 Hs.170219 hypothetical protein 0.11 0.69 early stage 426670 AA383047 Hs.193718 ESTs 1 0.55 early stage 426699 AA383337 Hs.121269 ESTs 0.33 0.71 early stage 427827 AA416577 Hs.189105 ESTs 1.16 0.41 early stage 428651 AF196478 Hs.188401 annexin A10 1.85 0.24 early stage 430727 X75917 Hs.2654 MHC binding factor, beta 0.78 0.46 early stage 430750 AI650360 Hs.100256 ESTs 2.15 0.17 early stage 430795 AW971398 gb: EST383487 MAGE resequences, MAGL Homo 1.95 0.21 early stage 431900 AW972048 Hs.192534 ESTs 0.36 0.73 early stage 432728 NM_006979 Hs.278721 HLA class II region expressed gene KE4 1.8 0.17 early stage 432791 NM_014554 Hs.278949 sentrin/SUMO-specific protease 2.8 0.15 early stage 433404 T32982 Hs.102720 ESTs 2.2 0.13 early stage 433782 AF090945 gb: Homo sapiens clone HQ0670 3.3 0.15 early stage 433877 BE146567 Hs.257475 ESTs 0.65 0.7 early stage 434483 AA223646 Hs.57222 nurim (nuclear envelope membrane protein 0.38 0.49 early stage 435752 AF230801 Hs.125180 growth hormone receptor 0.52 0.4 early stage 436178 BE152396 Hs.21590 Homo sapiens HSPC304 mRNA, partial cds 1.65 0.14 early stage 436391 AJ227892 Hs.146274 ESTs 1.35 0.16 early stage 436602 AI793222 Hs.166817 ESTs 0.17 1.46 early stage 436777 AA731199 Hs.293130 ESTs 1 0.2 early stage 436813 AW975714 Hs.129004 ESTs 0.19 1.45 early stage 436869 NM_014867 Hs.297661 Homo sapiens YAC clone 377A1 unknown mRN 0.96 0.2 early stage 437169 AA309612 Hs.118797 ubiquitin-conjugating enzyme E2D 3 (homo 0.07 1.8 early stage 438649 AA813136 Hs.143014 ESTs 1.38 0.19 early stage 438681 AW384815 Hs.149208 KIAA1555 protein 0.25 0.54 early stage 438802 AA825976 Hs.136954 ESTs 1.8 0.14 early stage 438887 R68857 Hs.265499 ESTs 1.05 0.32 early stage 440128 AA962623 Hs.189144 ESTs, Weakly similar to NPT2_HUMAN RENAL 1 0.19 early stage 440397 AA884448 Hs.157239 ESTs 0.59 0.38 early stage 440509 BE410132 Hs.134202 ESTs, Weakly similar to B41182 collagen 0.26 0.9 early stage 440605 Z40094 Hs.185698 ESTs 0.51 0.43 early stage 442238 AW135374 Hs.270949 ESTs 1 0.18 early stage 443258 AF169301 Hs.9098 sulfate transporter 1 0.85 0.49 early stage 445739 AW136354 Hs.145303 ESTs 0.88 0.4 early stage 447306 AI373163 Hs.170333 ESTs 0.15 0.8 early stage 447346 AI525135 Hs.210507 ESTs 1.35 0.27 early stage 448265 N46272 Hs.26812 ESTs 0.47 0.26 early stage 448678 AI560776 Hs.199854 ESTs 0.19 0.68 early stage 448778 AF074913 gb: Homo sapiens transcription factor Pax 0.57 0.53 early stage 448871 BE616709 gb: 601279937F1 NIH_MGC_39 Homo sapiens c 0.26 0.94 early stage 449180 AI633836 Hs.195649 ESTs 0.46 0.45 early stage 449213 BE616861 gb: 601279056F1 NIH_MGC_39 Homo sapiens c 0.73 0.56 early stage 449231 BE410360 gb: 601302340F1 NIH_MGC_21 Homo sapiens c 0.27 0.76 early stage 449450 AL039852 Hs.256990 ESTs, Moderately similar to ALU7_HUMAN A 1 0.26 early stage 449815 AI671000 Hs.199739 ESTs 1.2 0.15 early stage 450972 AW967906 Hs.194617 ESTs 0.28 0.83 early stage 451236 AI767406 Hs.207026 ESTs, Weakly similar B56205 transcrip 0.35 0.77 early stage 451283 H83979 gb: ys93d11.r1 Soares retina N2b5HR Homo 1 0.23 early stage 451375 AI792066 Hs.283902 Homo sapiens BAC clone RP11-481J13 from 0.16 1.37 early stage 452530 AI905518 gb: RC-BT091-210199-098 BT091 Homo sapien 1.35 0.21 early stage 452550 AA026735 gb: ze93d05.r1 Soares_fetal_heart_NbHH19W 0.44 0.6 early stage 454121 AW090524 Hs.244967 ESTs 2.85 0.17 early stage 454554 AW847505 gb: RC0-CT0210-280999-021-c10 CT0210 Homo 0.36 0.5 early stage 454697 AW813728 Hs.15036 ESTs, Highly similar to AF161358 1 HSPC0 0.43 0.6 early stage 454851 AW835127 gb: RC4-LT0011-100100-012-c07 LT0011 Homo 0.77 0.32 early stage 455040 AW852286 gb: QV0-CT0225-100400-187-d08 CT0225 Homo 0.26 0.52 early stage 455225 AW996689 gb: QV3-BN0046-150400-151-g09 BN0046 Homo 1.7 0.18 early stage 455970 AI733857 Hs.71483 ESTs 0.66 0.45 early stage 456235 AA203637 gb: zx58b12.r1 Soares_fetal_liver_spleen_(—) 0.64 0.43 early stage 456450 AJ000098 Hs.94210 eyes absent (Drosophila) homolog 1 0.38 0.76 early stage 456526 AA782222 Hs.192008 ESTs 0.63 0.43 early stage 456855 AF035528 Hs.153863 MAD (mothers against decapentaplegic, Dr 0.49 0.46 early stage 456983 AI081687 Hs.170225 thymopoietin 0.27 0.75 early stage 457089 AA416556 Hs.98234 ESTs 0.34 0.48 early stage 458198 AI286100 Hs.192739 ESTs 0.47 0.48 early stage 458425 AI084057 Hs.301149 ESTs 0.4 0.37 early stage 458660 AI299739 Hs.99601 Homo sapiens cDNA FLJ12553 fis, clone NT 0.79 0.68 early stage 458703 AW749121 Hs.282901 ESTs 1 0.23 early stage 458767 T97083 Hs.148355 ESTs 1 0.17 early stage 459399 BE407712 gb: 601299745F1 NIH_MGC_21 Homo sapiens c 0.68 0.56 early stage 400860 4.9 0.08 late stage 408190 AB032963 Hs.43577 ATPase, Class I, type 8B, member 2 0.58 0.84 late stage 408558 AW015759 Hs.235709 ESTs 1.26 0.45 late stage 410077 AF097645 Hs.58570 deleted in cancer 1; RNA helicase HDB/DI 6.2 0.12 late stage 410295 AA741357 Hs.62041 nidogen (enactin) 0.77 0.86 late stage 410310 J02931 Hs.62192 coagulation factor III (thromboplastin, 1.45 0.27 late stage 410614 AI091195 Hs.65029 growth arrest-specific 1 0.4 1.12 late stage 410867 X63556 Hs.750 fibrillin 1 (Marfan syndrome) 0.71 1.07 late stage 411573 AB029000 Hs.70823 KIAA1077 protein 3.64 0.19 late stage 412116 AW402166 Hs.784 Epstein-Barr virus induced gene 2 (lymph 5.18 0.13 late stage 412178 AW898526 gb: RC6-NN0072-040500-011-E05 NN0072 Homo 7.55 0.08 late stage 412429 AV650262 Hs.75765 GRO2 oncogene 3.37 0.15 late stage 412652 AI801777 Hs.6774 ESTs 0.49 1.24 late stage 412828 AL133396 Hs.74621 prion protein (p27-30) (Creutzfeld-Jakob 3.6 0.11 late stage 414020 NM_002984 Hs.75703 small inducible cytokine A4 (homologous 4.62 0.14 late stage 414183 AW957446 Hs.301711 ESTs 3.18 0.16 late stage 414359 M62194 Hs.75929 cadherin 11, type 2, OB-cadherin (osteob 0.81 0.73 late stage 414476 AA301867 Hs.76224 EGF-containing fibulin-like extracellula 0.37 0.99 late stage 414504 AW069181 Hs.293523 ESTs, Weakly similar to transformation-r 0.97 0.65 late stage 414812 X72755 Hs.77367 monokine induced by gamma interferon 3.84 0.1 late stage 415116 AA160363 Hs.269956 ESTs 7.45 0.07 late stage 415714 NM_002290 Hs.78672 laminin, alpha 4 0.49 1.39 late stage 415822 D59243 gb: HUM526E07B Clontech human placenta po 8.15 0.09 late stage 415994 NM_002923 Hs.78944 regulator of G-protein signalling 2, 24 k 0.48 1.46 late stage 417059 AL037672 Hs.81071 extracellular matrix protein 1 1.52 0.44 late stage 417259 AW903838 Hs.81800 chondroitin sulfate proteoglycan 2 (vers 2 0.39 late stage 417733 AL048678 Hs.82503 syntaphilin 0.2 2.67 late stage 417771 AA804698 Hs.82547 retinoic acid receptor responder (tazaro 4.56 0.12 late stage 417849 AW291587 Hs.82733 nidogen 2 1.81 0.38 late stage 418005 AI186220 Hs.83164 collagen, type XV, alpha 1 0.97 0.74 late stage 418283 S79895 Hs.83942 cathepsin K (pycnodysostosis) 1.21 0.56 late stage 418875 W19971 Hs.233459 ESTs 2.63 0.33 late stage 419490 NM_006144 Hs.90708 granzyme A (granzyme 1, cytotoxic T-lymp 7.65 0.07 late stage 419925 AA159850 Hs.93765 lipoma HMGIC fusion partner 0.91 0.82 late stage 420411 AI581085 Hs.24678 ESTs 7.3 0.1 late stage 420943 AI718702 Hs.105341 ESTs 7.05 0.07 late stage 421116 T19132 Hs.101850 retinol-binding protein 1, cellular 0.99 0.42 late stage 421684 BE281591 Hs.106768 hypothetical protein FLJ10511 8.1 0.08 late stage 421786 AI188653 Hs.21351 ESTs 8.15 0.08 late stage 422414 AW875237 Hs.13701 ESTs 1.05 0.69 late stage 422550 BE297626 Hs.296049 microfibrillar-associated protein 4 0.28 1.53 late stage 422790 AA809875 Hs.25933 ESTs 2.59 0.28 late stage 423057 AW961597 Hs.130816 ESTs 7.55 0.08 late stage 423720 AL044191 Hs.23388 Homo sapiens cDNA: FLJ21310 fis, clone C 1.24 0.61 late stage 423905 AW579960 Hs.135150 lung type-I cell membrane-associated gly 2.12 0.24 late stage 423915 AF039018 Hs.135281 alpha-actinin-2-associated LIM protein 0.29 2.45 late stage 423961 D13666 Hs.136348 osteoblast specific factor 2 (fasciclin 4.47 0.17 late stage 424247 X14008 Hs.234734 lysozyme (renal amyloidosis) 2.44 0.26 late stage 424839 AA740632 Hs.120850 ESTs 2.74 0.23 late stage 426780 BE242284 Hs.172199 adenylate cyclase 7 8.55 0.09 late stage 426974 AB002298 Hs.173035 KIAA0300 protein 1.56 0.36 late stage 427055 AI301740 Hs.173381 dihydropyrimidinase-like 2 0.72 1 late stage 427882 AA640987 Hs.193767 ESTs 2.25 0.29 late stage 428065 AI634046 Hs.157313 ESTs 6.19 0.1 late stage 428147 AW629965 Hs.234983 ESTs 8.42 0.08 late stage 428585 AB007863 Hs.185140 KIAA0403 protein 6.85 0.08 late stage 428825 AI084336 Hs.128783 ESTs 0.9 0.8 late stage 429490 AI971131 Hs.293684 ESTs, Weakly similar to alternatively sp 1.59 0.39 late stage 429500 X78565 Hs.289114 hexabrachion (tenascin C, cytotactin) 0.77 0.49 late stage 431103 M57399 Hs.44 pleiotrophin (heparin binding growth fac 0.92 0.3 late stage 431319 AA873350 gb: oh64h02.s1 NCI_CGAP_Kid5 Homo sapiens 1.36 0.44 late stage 431583 AL042613 Hs.262476 S-adenosylmethionine decarboxylase 1 4.69 0.17 late stage 432314 AA533447 Hs.285173 ESTs 1.75 0.31 late stage 432331 W37862 Hs.274368 Homo sapiens mRNA; cDNA DKFZp586I1524 (f 0.35 1.58 late stage 432559 AW452948 Hs.257631 ESTs 1.37 0.49 late stage 433470 AW960564 Hs.3337 transmembrane 4 superfamily member 1 2.58 0.24 late stage 433586 T85301 gb: yd78d06.s1 Soares fetal liver spleen 5.06 0.11 late stage 436428 AW246900 Hs.283712 hypothetical protein 8.25 0.09 late stage 436729 BE621807 Hs.3337 transmembrane 4 superfamily member 1 1.6 0.26 late stage 438873 AI302471 Hs.124292 Homo sapiens cDNA: FLJ23123 fis, clone L 8.15 0.08 late stage 439584 AA838114 Hs.221612 ESTs 8.6 0.09 late stage 439653 AW021103 Hs.6631 hypothetical protein FLJ20373 2.21 0.27 late stage 440524 R71264 Hs.16798 ESTs 3.44 0.21 late stage 440624 AF017987 Hs.7306 secreted frizzled-related protein 1 0.42 0.63 late stage 441976 AA428403 Hs.106131 ESTs 8.5 0.09 late stage 442739 NM_007274 Hs.8679 cytosolic acyl coenzyme A thioester hydr 7.95 0.06 late stage 443852 AI679966 Hs.150603 ESTs 6.84 0.12 late stage 443896 AI680242 Hs.271687 Homo sapiens cDNA FLJ13527 fis, clone PL 7.95 0.08 late stage 444212 AW503976 Hs.10649 basement membrane-induced gene 2.31 0.28 late stage 444331 AW193342 Hs.24144 ESTs 0.32 1.64 late stage 445142 AW978484 Hs.93842 Homo sapiens cDNA: FLJ22554 fis, clone H 2.52 0.24 late stage 445701 AF055581 Hs.13131 lymphocyte adaptor protein 1.43 0.47 late stage 446584 U53445 Hs.15432 downregulated in ovarian cancer 1 0.54 1.39 late stage 447526 AL048753 Hs.340 small inducible cytokine A2 (monocyte ch 1.43 0.43 late stage 447744 AA313230 Hs.19413 S100 calcium-binding protein A12 (calgra 1.35 0.26 late stage 447818 W79940 Hs.21906 ESTs 6.63 0.13 late stage 449567 AI990790 Hs.188614 ESTs 4.7 0.13 late stage 450455 AL117424 Hs.25035 chloride intracellular channel 4 0.64 1.31 late stage 452239 AW379378 Hs.170121 protein tyrosine phosphatase, receptor t 0.59 1.18 late stage 452698 NM_001295 Hs.301921 ESTs 2.31 0.26 late stage 453212 H15416 Hs.21865 ESTs 2.51 0.26 late stage 455510 AA422029 Hs.143640 ESTs, Weakly similar to hyperpolarizatio 8.6 0.06 late stage 400775 R58624 Hs.2186 eukaryotic translation elongation factor 1 1 T2-T4 grade 3 papilloma marker 401508 1 1 T2-T4 grade 3 papilloma marker 403092 1 1 T2-T4 grade 3 papilloma marker 404232 1 1 T2-T4 grade 3 papilloma marker 407020 U49973 gb: Human Tigger1 transposable element, c 1 1 T2-T4 grade 3 papilloma marker 407345 AI053836 Hs.169365 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 1 T2-T4 grade 3 papilloma marker 407420 AF084362 gb: Homo sapiens lipoate-protein ligase B 1 1 T2-T4 grade 3 papilloma marker 407577 AW131324 Hs.246759 ESTs, Weakly similar to KIAA1074 protein 1 1 T2-T4 grade 3 papilloma marker 407666 AF071107 Hs.37501 MAD (mothers against decapentaplegic, Dr 1 1 T2-T4 grade 3 papilloma marker 407916 L09234 Hs.603 ATPase, H+ transporting, lysosomal (vacu 1 1 T2-T4 grade 3 papilloma marker 407936 AW118147 Hs.270935 ESTs 1 1 T2-T4 grade 3 papilloma marker 408186 AW168847 Hs.250156 ESTs 1 1 T2-T4 grade 3 papilloma marker 408950 AA707814 Hs.7396 ESTs 1 1 T2-T4 grade 3 papilloma marker 409038 T97490 Hs.50002 small inducible cytokine subfamily A (Cy 1.2 0.12 T2-T4 grade 3 papilloma marker 409045 AA635062 Hs.50094 Homo sapiens mRNA; cDNA DKFZp434O0515 (f 1 1 T2-T4 grade 3 papilloma marker 409196 NM_001874 Hs.169765 carboxypeptidase M 1 1 T2-T4 grade 3 papilloma marker 409281 AA069998 gb: zm67b03.r1 Stratagene neuroepithelium 1 1 T2-T4 grade 3 papilloma marker 410010 AW572853 Hs.257683 ESTs, Weakly similar to ALU3_HUMAN ALU S 1 0.5 T2-T4 grade 3 papilloma marker 410157 AW593277 Hs.225056 ESTs 1 0.69 T2-T4 grade 3 papilloma marker 411112 AW818158 gb: CM1-ST0277-161299-070-g07 ST0277 Homo 1 1 T2-T4 grade 3 papilloma marker 411336 AW837675 gb: QV2-LT0039-260300-107-b04 LT0039 Homo 1 1 T2-T4 grade 3 papilloma marker 412051 T15872 Hs.268713 ESTs, Weakly similar to hypothetical pro 1 1 T2-T4 grade 3 papilloma marker 413485 N52628 gb: yv37g11.s1 Soares fetal liver spleen 1 1 T2-T4 grade 3 papilloma marker 413574 BE149158 Hs.129998 Homo sapiens cDNA FLJ14267 fis, clone PL 1 1 T2-T4 grade 3 papilloma marker 413782 BE546104 gb: 601072642F1 NIH_MGC_12 Homo sapiens c 1 1 T2-T4 grade 3 papilloma marker 414749 H94622 Hs.193358 ESTs, Moderately similar to diabetes mel 1 1 T2-T4 grade 3 papilloma marker 415293 R49462 Hs.106541 ESTs 1 1 T2-T4 grade 3 papilloma marker 415442 F12963 Hs.7045 GL004 protein 1 1 T2-T4 grade 3 papilloma marker 416255 T87587 Hs.272082 ESTs 1 1 T2-T4 grade 3 papilloma marker 417047 AA192640 Hs.1526 ATPase, Ca++ transporting, cardiac muscl 1 1 T2-T4 grade 3 papilloma marker 417181 L10123 Hs.1071 surfactant protein A binding protein 1 1 T2-T4 grade 3 papilloma marker 417367 N73877 Hs.171815 ESTs 1 1 T2-T4 grade 3 papilloma marker 419721 NM_001650 Hs.288650 aquaporin 4 1 1 T2-T4 grade 3 papilloma marker 420294 AA808259 Hs.196716 ESTs 1 0.65 T2-T4 grade 3 papilloma marker 423589 AA328082 Hs.209569 ESTs, Weakly similar to thrombospondin t 1 1 T2-T4 grade 3 papilloma marker 424549 AI873205 Hs.183114 Homo sapiens cDNA FLJ14236 fis, clone NT 1 1 T2-T4 grade 3 papilloma marker 425458 H89317 Hs.182889 ESTs 1 1 T2-T4 grade 3 papilloma marker 426475 AL134728 gb: DKFZp547A1890_r1 547 (synonym: hfbr1) 1 1 T2-T4 grade 3 papilloma marker 429453 AA453195 Hs.124222 ESTs 1 1 T2-T4 grade 3 papilloma marker 431200 AF044923 Hs.250752 hook1 protein 1 1 T2-T4 grade 3 papilloma marker 431938 AA938471 Hs.115242 developmentally regulated GTP-binding pr 1 1 T2-T4 grade 3 papilloma marker 431944 AI360891 Hs.143619 ESTs 1 1 T2-T4 grade 3 papilloma marker 432021 AA524470 Hs.58753 ESTs 1 1 T2-T4 grade 3 papilloma marker 432205 AI806583 Hs.125291 ESTs 1 0.31 T2-T4 grade 3 papilloma marker 432527 AW975028 Hs.102754 ESTs 1 1 T2-T4 grade 3 papilloma marker 434069 AF116651 Hs.283058 hypothetical protein PRO0800 1 0.41 T2-T4 grade 3 papilloma marker 435278 AW994242 Hs.173495 ESTs 1 1 T2-T4 grade 3 papilloma marker 435965 AI034368 Hs.132650 ESTs 1 0.36 T2-T4 grade 3 papilloma marker 436227 AA706937 Hs.120802 ESTs, Moderately similar to A26641 Na+/K 1 1 T2-T4 grade 3 papilloma marker 436635 AW104325 Hs.272093 ESTs, Weakly similar to STK2_HUMAN SERIN 1 0.74 T2-T4 grade 3 papilloma marker 436640 AA724411 Hs.156065 ESTs 1 1 T2-T4 grade 3 papilloma marker 436884 BE046657 gb: hn42e02.x1 NCI_CGAP_RDF2 Homo sapiens 1 1 T2-T4 grade 3 papilloma marker 437251 AW976082 gb: EST388191 MAGE resequences, MAGN Homo 1 1 T2-T4 grade 3 papilloma marker 437348 AA749149 Hs.163114 ESTs 1 1 T2-T4 grade 3 papilloma marker 437769 AA767853 Hs.122895 ESTs 1 1 T2-T4 grade 3 papilloma marker 437771 AA811071 Hs.123349 ESTs 1 1 T2-T4 grade 3 papilloma marker 438347 AA909686 Hs.293397 ESTs 1 1 T2-T4 grade 3 papilloma marker 439171 AA831133 Hs.294128 ESTs 1 0.95 T2-T4 grade 3 papilloma marker 439914 AA854066 Hs.145394 ESTs 1 1 T2-T4 grade 3 papilloma marker 440399 AI215527 Hs.125589 ESTs 1 1 T2-T4 grade 3 papilloma marker 440972 BE044588 Hs.276158 ESTs 1 1 T2-T4 grade 3 papilloma marker 442004 AA973568 Hs.128317 ESTs 1 1 T2-T4 grade 3 papilloma marker 442270 BE565699 Hs.62005 ESTs 1 1 T2-T4 grade 3 papilloma marker 443413 AI056457 Hs.221642 ESTs 1 1 T2-T4 grade 3 papilloma marker 443927 AW016726 Hs.134860 ESTs 1 1 T2-T4 grade 3 papilloma marker 445442 N20392 Hs.42846 ESTs 1 1 T2-T4 grade 3 papilloma marker 445611 AW418497 Hs.145583 ESTs 1 0.49 T2-T4 grade 3 papilloma marker 445888 AF070564 Hs.13415 Homo sapiens clone 24571 mRNA sequence 1 1 T2-T4 grade 3 papilloma marker 446552 AW470827 Hs.156241 ESTs 1 1 T2-T4 grade 3 papilloma marker 447399 AI815401 Hs.251967 Homo sapiens clone 785627 unknown mRNA 2.9 0.14 T2-T4 grade 3 papilloma marker 449111 T83109 Hs.196180 ESTs 1 1 T2-T4 grade 3 papilloma marker 449232 AW192780 Hs.196080 ESTs 1 0.8 T2-T4 grade 3 papilloma marker 451373 AI792030 gb: os03e11.y5 NCI_CGAP_Lu5 Homo sapiens 1 1 T2-T4 grade 3 papilloma marker 452453 AI902519 gb: QV-BT009-101198-051 BT009 Homo sapien 1 1 T2-T4 grade 3 papilloma marker 452534 AW083022 Hs.149425 Homo sapiens cDNA FLJ11980 fis, clone HE 1 0.67 T2-T4 grade 3 papilloma marker 452536 BE063380 gb: PM0-BT0275-291099-002-g 10 BT0275 Homo 1.65 0.26 T2-T4 grade 3 papilloma marker 452640 AA027115 Hs.100206 ESTs, Weakly similar to AAAD_HUMAN ARYLA 1 1 T2-T4 grade 3 papilloma marker 452645 AI911325 Hs.212049 EST 1 1 T2-T4 grade 3 papilloma marker 453102 NM_007197 Hs.31664 frizzled (Drosophila) homolog 10 1 1 T2-T4 grade 3 papilloma marker 453472 AL037925 gb: DKFZp564M037_r1 564 (synonym: hfbr2) 1 0.8 T2-T4 grade 3 papilloma marker 453609 AL045301 Hs.13427 ESTs 1 1 T2-T4 grade 3 papilloma marker 453677 AL079389 gb: DKFZp434E2116_r1 434 (synonym: htes3) 1 0.77 T2-T4 grade 3 papilloma marker 453704 R41806 Hs.100884 ESTs 1 1 T2-T4 grade 3 papilloma marker 455267 AW880861 gb: QV0-OT0033-070300-152-c12 OT0033 Homo 1 1 T2-T4 grade 3 papilloma marker 455880 BE153208 gb: PM0-HT0335-050400-007-F10 HT0335 Homo 1 1 T2-T4 grade 3 papilloma marker 456520 AW835416 Hs.29417 HCF-binding transcription factor Zhangfe 1 1 T2-T4 grade 3 papilloma marker 456763 AJ271351 Hs.128180 B-cell translocation gene 4 1 0.71 T2-T4 grade 3 papilloma marker 456912 AI458843 Hs.158112 protein tyrosine phosphatase, receptor t 1 1 T2-T4 grade 3 papilloma marker 457018 AA761820 Hs.250965 ESTs 1 1 T2-T4 grade 3 papilloma marker 457323 AW967813 Hs.201064 ESTs 1 1 T2-T4 grade 3 papilloma marker 457339 AW971949 Hs.291252 ESTs 1 1 T2-T4 grade 3 papilloma marker 457340 AA492071 gb: ne97b04.s1 NCI_CGAP_Kid1 Homo sapiens 1 1 T2-T4 grade 3 papilloma marker 457507 AW300248 Hs.181693 ESTs 1 1 T2-T4 grade 3 papilloma marker 458106 AF086561 Hs.37 acetyl-Coenzyme A acetyltransferase 1 (a 1 1 T2-T4 grade 3 papilloma marker 458624 AI362790 Hs.181801 ESTs 1 0.34 T2-T4 grade 3 papilloma marker 459396 AI907536 Hs.103869 ESTs 1 1 T2-T4 grade 3 papilloma marker 401002 1 1 T2-T4 grade 3 solid tumor marker 401866 1.35 0.14 T2-T4 grade 3 solid tumor marker 403615 1 1 T2-T4 grade 3 solid tumor marker 403776 1 1 T2-T4 grade 3 solid tumor marker 404113 1 0.43 T2-T4 grade 3 solid tumor marker 404488 1 0.17 T2-T4 grade 3 solid tumor marker 404653 1 1 T2-T4 grade 3 solid tumor marker 406076 AL390179 Hs.137011 Homo sapiens mRNA; cDNA DKFZp547P134 (fr 1 0.24 T2-T4 grade 3 solid tumor marker 406471 1 0.42 T2-T4 grade 3 solid tumor marker 406690 M29540 Hs.220529 carcinoembryonic antigen-related cell ad 2.75 0.05 T2-T4 grade 3 solid tumor marker 407624 AW157431 Hs.248941 ESTs 3.05 0.15 T2-T4 grade 3 solid tumor marker 409153 W03754 Hs.50813 hypothetical protein FLJ20022 3.85 0.03 T2-T4 grade 3 solid tumor marker 409464 X69115 Hs.54488 zinc finger protein 37a (KOX 21) 1.15 0.29 T2-T4 grade 3 solid tumor marker 409731 AA125985 Hs.56145 thymosin, beta, identified in neuroblast 1 0.24 T2-T4 grade 3 solid tumor marker 410025 BE220489 Hs.113592 ESTs 1 0.3 T2-T4 grade 3 solid tumor marker 410589 AW770768 Hs.266717 ESTs 1 0.28 T2-T4 grade 3 solid tumor marker 411840 AW866330 gb: QV4-SN0024-080400-167-e01 SN0024 Homo 1.05 0.15 T2-T4 grade 3 solid tumor marker 412198 AA937111 Hs.69165 ESTs 1 0.26 T2-T4 grade 3 solid tumor marker 412305 AW936369 gb: QV4-DT0021-301299-071-d07 DT0021 Homo 1 0.53 T2-T4 grade 3 solid tumor marker 412753 AI065016 Hs.6390 ESTs 1 0.33 T2-T4 grade 3 solid tumor marker 413472 BE242870 Hs.75379 solute carrier family 1 (glial high affi 1 0.69 T2-T4 grade 3 solid tumor marker 413530 AA130158 Hs.19977 ESTs, Moderately similar to ALU8_HUMAN A 1 0.29 T2-T4 grade 3 solid tumor marker 415027 D31010 gb: HUML 12147 Human fetal lung Homo sapie 1 1 T2-T4 grade 3 solid tumor marker 416099 H18626 Hs.22634 ESTs 1 0.74 T2-T4 grade 3 solid tumor marker 416655 AW968613 Hs.79428 BCL2/adenovirus E1B 19 kD-interacting pro 3.8 0.12 T2-T4 grade 3 solid tumor marker 418329 AW247430 Hs.84152 cystathionine-beta-synthase 2.85 0.08 T2-T4 grade 3 solid tumor marker 420347 AL033539 Hs.97124 Human DNA sequence from clone RP1-309H15 1 0.2 T2-T4 grade 3 solid tumor marker 421243 AW873803 Hs.102876 pancreatic lipase 1 0.38 T2-T4 grade 3 solid tumor marker 422660 AW297582 Hs.237062 ESTs 1.05 0.32 T2-T4 grade 3 solid tumor marker 422834 AA318334 gb: EST20402 Retina II Homo sapiens cDNA 1 0.38 T2-T4 grade 3 solid tumor marker 422972 N59319 Hs.145404 ESTs 1 0.61 T2-T4 grade 3 solid tumor marker 423104 AJ005273 Hs.123647 antigenic determinant of recA protein (m 2.95 0.12 T2-T4 grade 3 solid tumor marker 423634 AW959908 Hs.1690 heparin-binding growth factor binding pr 1 0.05 T2-T4 grade 3 solid tumor marker 424268 AA397653 Hs.144339 Human DNA sequence from clone 495O10 on 1 0.35 T2-T4 grade 3 solid tumor marker 425196 AL037915 Hs.155097 carbonic anhydrase II 2.75 0.05 T2-T4 grade 3 solid tumor marker 427099 AB032953 Hs.173560 odd Oz/ten-m homolog 2 (Drosophila, mous 1 0.09 T2-T4 grade 3 solid tumor marker 430300 U60805 Hs.238648 oncostatin M receptor 1 0.25 T2-T4 grade 3 solid tumor marker 431098 AW501465 Hs.249230 ribonuclease L (2′,5′-oligoisoadenylate 1 0.28 T2-T4 grade 3 solid tumor marker 431277 AA501806 Hs.249965 ESTs 1 0.22 T2-T4 grade 3 solid tumor marker 431750 AA514986 Hs.283705 ESTs 1 1 T2-T4 grade 3 solid tumor marker 434273 AA913143 Hs.26303 ESTs 1 0.41 T2-T4 grade 3 solid tumor marker 435505 AF200492 Hs.211238 interleukin-1 homolog 1 1.8 0.19 T2-T4 grade 3 solid tumor marker 436281 AW411194 Hs.120051 ESTs 2.05 0.14 T2-T4 grade 3 solid tumor marker 437010 AA741368 Hs.291434 ESTs 2.4 0.17 T2-T4 grade 3 solid tumor marker 437814 AI088192 Hs.135474 ESTs, Weakly similar to DDX9_HUMAN ATP-D 1.8 0.13 T2-T4 grade 3 solid tumor marker 438361 AA805666 Hs.146217 Homo sapiens cDNA: FLJ23077 fis, clone L 1 0.3 T2-T4 grade 3 solid tumor marker 438376 BE541211 Hs.34804 Homo sapiens cDNA FLJ11472 fis, clone HE 1 0.57 T2-T4 grade 3 solid tumor marker 439370 AW274369 Hs.158853 ESTs 1 0.17 T2-T4 grade 3 solid tumor marker 440021 AW025498 Hs.270842 ESTs, Weakly similar to ALU8_HUMAN ALU S 1 0.65 T2-T4 grade 3 solid tumor marker 440404 AI015881 Hs.125616 ESTs 1 0.26 T2-T4 grade 3 solid tumor marker 441523 AW514263 Hs.168872 ESTs, Weakly similar to ALUF_HUMAN !!!! 1 1 T2-T4 grade 3 solid tumor marker 442277 AW448914 Hs.202391 ESTs 2.4 0.15 T2-T4 grade 3 solid tumor marker 442738 AW002370 Hs.1 31055 ESTs 1 0.29 T2-T4 grade 3 solid tumor marker 443297 AI049864 Hs.133029 ESTs 1 1 T2-T4 grade 3 solid tumor marker 444754 T83911 Hs.11881 transmembrane 4 superfamily member 4 1 0.61 T2-T4 grade 3 solid tumor marker 445550 AI242754 Hs.137306 ESTs 1 0.5 T2-T4 grade 3 solid tumor marker 446149 BE242960 Hs.203181 ESTs 1 0.25 T2-T4 grade 3 solid tumor marker 446163 AA026880 Hs.25252 Homo sapiens cDNA FLJ13603 fis, clone PL 1 0.21 T2-T4 grade 3 solid tumor marker 446434 AI823410 Hs.169149 karyopherin alpha 1 (importin alpha 5) 1 1 T2-T4 grade 3 solid tumor marker 446928 AI694493 Hs.246916 ESTs 1 0.31 T2-T4 grade 3 solid tumor marker 448591 AI540111 Hs.171261 ESTs 1 1 T2-T4 grade 3 solid tumor marker 449121 AI915858 Hs.194980 ESTs 1 1 T2-T4 grade 3 solid tumor marker 449539 W80363 Hs.58446 ESTs 1 0.33 T2-T4 grade 3 solid tumor marker 450451 AW591528 Hs.202072 ESTs 1 0.59 T2-T4 grade 3 solid tumor marker 450469 AI955049 Hs.281326 ESTs 1 0.43 T2-T4 grade 3 solid tumor marker 450684 AA872605 Hs.25333 interleukin 1 receptor, type II 1 0.05 T2-T4 grade 3 solid tumor marker 451099 R52795 Hs.25954 interleukin 13 receptor, alpha 2 1.55 0.11 T2-T4 grade 3 solid tumor marker 451106 BE382701 Hs.25960 v-myc avian myelocytomatosis viral relat 1 0.95 T2-T4 grade 3 solid tumor marker 451130 AI762250 Hs.211347 ESTs 3.65 0.15 T2-T4 grade 3 solid tumor marker 451412 AW136378 Hs.208060 ESTs 1 1 T2-T4 grade 3 solid tumor marker 451806 NM_003729 Hs.27076 RNA 3′-terminal phosphate cyclase 1.35 0.22 T2-T4 grade 3 solid tumor marker 452114 N22687 Hs.8236 ESTs 1 0.19 T2-T4 grade 3 solid tumor marker 452743 AW965082 Hs.61455 ESTs 1 0.44 T2-T4 grade 3 solid tumor marker 454622 U70071 gb: HSU70071 Human Homo sapiens cDNA clon 1 1 T2-T4 grade 3 solid tumor marker 455235 AW875951 gb: CM1-PT0013-131299-067-f09 PT0013 Homo 1 0.31 T2-T4 grade 3 solid tumor marker 457792 AL046988 Hs.268677 ESTs, Moderately similar to ALU7_HUMAN A 1 0.24 T2-T4 grade 3 solid tumor marker 100147 D13666 Hs.136348 osteoblast specific factor 2 (fasciclin 20.531 0.036 upregulate stage 101193 L20861 Hs.152213 “wingless-type MMTV integration site fam 1 0.526 upregulate stage 101724 M69225 Hs.620 bullous pemphigoid antigen 1 (230/240 kD) 20.67 0.037 upregulate stage 101809 M86849 “Hs.323733 “gap junction protein, beta 2, 26 kD (con 20.78 0.019 upregulate stage 102154 U17760 Hs.75517 “laminin, beta 3 (nicein (125 kD), kalini 18.848 0.042 upregulate stage 102211 U23070 Hs.78776 putative transmembrane protein 2.092 0.28 upregulate stage 102623 U66083 Hs.37110 “melanoma antigen, family A, 9” 1 0.306 upregulate stage 102915 X07820 Hs.2258 matrix metalloproteinase 10 (stromelysin 3.27 0.041 upregulate stage 103036 X54925 “Hs.83169 matrix metalloproteinase 1 (interstitial 13.63 0.034 upregulate stage 103119 X63629 Hs.2877 “cadherin 3, type 1, P-cadherin (placent 7.296 0.054 upregulate stage 103312 X82693 Hs.3185 “lymphocyte antigen 6 complex, locus D” 0.908 0.485 upregulate stage 103478 Y07755 Hs.38991 S100 calcium-binding protein A2 2.928 0.219 upregulate stage 103587 Z29083 Hs.82128 5T4 oncofetal trophoblast glycoprotein 3.156 0.16 upregulate stage 106632 AA459897 Hs.11950 GPI-anchored metastasis-associated prote 1.642 0.516 upregulate stage 107151 AA621169 Hs.8687 ESTs 2.421 0.174 upregulate stage 107901 AA026418 “Hs.111758 keratin 6A 1.259 0.343 upregulate stage 107922 AA028028 Hs.61460 “Homo sapiens Ig superfamily receptor LN 14.22 0.049 upregulate stage 109166 AA179845 Hs.73625 “RAB6 interacting, kinesin like (rabkine 11.13 0.039 upregulate stage 109424 AA227919 “Hs.85962 hyaluronan synthase 3 1.737 0.518 upregulate stage 110906 N39584 Hs.17404 ESTs 20.93 0.021 upregulate stage 112244 R51309 Hs.70823 KIAA1077 protein 3.941 0.181 upregulate stage 115060 AA253214 Hs.198249 “gap junction protein, beta 5 (connexin 1.932 0.502 upregulate stage 115697 AA411502 Hs.63325 “transmembrane protease, serine 4” 7.394 0.101 upregulate stage 115978 AA447522 “Hs.69517 “Homo sapiens, clone MGC: 5257, mRNA, com 1.667 0.445 upregulate stage 116335 AA495830 Hs.41690 desmocollin 3 4.899 0.154 upregulate stage 118314 N63402 Hs.46692 ESTs 9.75 0.069 upregulate stage 118336 N63604 Hs.47166 HT021 4.601 0.197 upregulate stage 119845 W79920 Hs.58561 G protein-coupled receptor 87 1.95 0.123 upregulate stage 120486 AA253400 Hs.137569 tumor protein 63 kDa with strong homolog 4.191 0.211 upregulate stage 121027 AA398470 Hs.99785 “Homo sapiens cDNA: FLJ21245 fis, clone 14.25 0.058 upregulate stage 124059 F13673 Hs.283713 “ESTs, Weakly similar to ORF YGL050w [S. 4.99 0.168 upregulate stage 128595 U31875 “Hs.152677 “Homo sapiens cDNA FLJ20338 fis, clone H 2.433 0.306 upregulate stage 128610 L38608 Hs.10247 activated leucocyte cell adhesion molecu 4.34 0.14 upregulate stage 129041 H58873 “Hs.169902 “solute carrier family 2 (facilitated gI 2.003 0.455 upregulate stage 129466 L42583 “Hs.111758 keratin 6A 11.584 0.042 upregulate stage 130627 L23808 Hs.1695 matrix metalloproteinase 12 (macrophage 2.376 0.233 upregulate stage 132349 Y00705 “Hs.181286 “serine protease inhibitor, Kazal type 1 5.4 0.132 upregulate stage 132710 W93726 Hs.55279 “seine (or cysteine) proteinase inhibit 3.888 0.187 upregulate stage 133391 X57579 Hs.727 “inhibin, beta A (activin A, activin AB 1.517 0.334 upregulate stage 134110 AA242758 “Hs.79136 “LIV-1 protein, estrogen regulated” 2.221 0.387 upregulate stage 400289 X07820 Hs.2258 matrix metalloproteinase 10 (stromelysin 4.85 0.03 upregulate stage 400297 AI127076 Hs.288381 hypothetical protein DKFZp564O1278 3.54 0.13 upregulate stage 400346 AB041269 Hs.272263 Homo sapiens mRNA for keratin 19, partia 8.95 0.07 upregulate stage 400419 AF084545 Hs.81800 chondroitin sulfate proteoglycan 2 (vers 10.7 0.06 upregulate stage 400495 1 0.56 upregulate stage 400509 M97639 Hs.155585 receptor tyrosine kinase-like orphan rec 1.52 0.51 upregulate stage 400528 3.47 0.23 upregulate stage 400577 1 0.29 upregulate stage 400608 7.2 0.08 upregulate stage 400644 1 1 upregulate stage 400666 1.42 0.43 upregulate stage 400750 8.7 0.1 upregulate stage 400773 1.11 0.51 upregulate stage 400844 9.65 0.04 upregulate stage 400845 2.3 0.28 upregulate stage 400846 1.34 0.5 upregulate stage 400880 9.4 0.06 upregulate stage 400887 1 1 upregulate stage 401086 1 0.51 upregulate stage 401093 7 0.08 upregulate stage 401101 1 0.17 upregulate stage 401197 5.18 0.14 upregulate stage 401262 1 1 upregulate stage 401271 1 1 upregulate stage 401279 9.1 0.06 upregulate stage 401342 1.42 0.5 upregulate stage 401345 M83738 Hs.147663 protein tyrosine phosphatase, non-recept 1 0.33 upregulate stage 401365 6.5 0.11 upregulate stage 401395 1 0.31 upregulate stage 401420 1 1 upregulate stage 401439 2.65 0.17 upregulate stage 401451 12 0.05 upregulate stage 401599 BE247275 Hs.151787 U5 snRNP-specific protein, 116 kD 9.15 0.08 upregulate stage 401600 BE247275 Hs.151787 U5 snRNP-specific protein, 116 kD 8.75 0.09 upregulate stage 401694 1 1 upregulate stage 401747 29.75 0.02 upregulate stage 401759 11.35 0.06 upregulate stage 401780 6.15 0.07 upregulate stage 401868 AC005261 Hs.98338 serine/threonine kinase 13 (aurora/IPL1- 1 0.69 upregulate stage 401994 3.15 0.15 upregulate stage 402001 4.4 0.14 upregulate stage 402230 8.75 0.06 upregulate stage 402325 1 0.36 upregulate stage 402408 5.15 0.1 upregulate stage 402472 9.05 0.08 upregulate stage 402480 1 1 upregulate stage 402490 9.6 0.07 upregulate stage 402553 9.85 0.09 upregulate stage 402889 9.4 0.09 upregulate stage 402901 1.07 0.65 upregulate stage 402938 1 1 upregulate stage 402995 9.6 0.06 upregulate stage 403005 1.5 0.21 upregulate stage 403020 5.15 0.12 upregulate stage 403052 R58624 Hs.2186 eukaryotic translation elongation factor 1 1 upregulate stage 403053 R58624 Hs.2186 eukaryotic translation elongation factor 1.5 0.28 upregulate stage 403073 1 0.37 upregulate stage 403085 1 0.43 upregulate stage 403106 1.12 0.57 upregulate stage 403152 AA576664 Hs.37078 v-crk avian sarcoma virus CT10 oncogene 0.86 1.08 upregulate stage 403172 7.7 0.09 upregulate stage 403212 1.18 0.62 upregulate stage 403214 6.05 0.1 upregulate stage 403277 4.5 0.11 upregulate stage 403331 3.2 0.13 upregulate stage 403381 10.7 0.05 upregulate stage 403485 10.35 0.08 upregulate stage 403588 1 1 upregulate stage 403851 2.45 0.34 upregulate stage 403860 1 1 upregulate stage 403894 4.45 0.14 upregulate stage 403903 1.39 0.58 upregulate stage 403954 W28077 Hs.79389 nel (chicken)-like 2 1 1 upregulate stage 404148 9.15 0.08 upregulate stage 404229 1 1 upregulate stage 404268 1 1 upregulate stage 404274 1.3 0.2 upregulate stage 404288 1 0.39 upregulate stage 404403 1 0.28 upregulate stage 404440 7.05 0.06 upregulate stage 404507 1 0.33 upregulate stage 404516 1 1 upregulate stage 404639 1 1 upregulate stage 404684 0.89 0.9 upregulate stage 404685 2.74 0.26 upregulate stage 404704 9.35 0.08 upregulate stage 404829 1 0.24 upregulate stage 404860 3.65 0.15 upregulate stage 404894 2.05 0.16 upregulate stage 404939 1 1 upregulate stage 405034 AL035754 Hs.2474 toll-like receptor 1 1 0.18 upregulate stage 405059 1 0.56 upregulate stage 405064 1 0.22 upregulate stage 405102 9.65 0.08 upregulate stage 405167 1 0.67 upregulate stage 405170 1 0.48 upregulate stage 405177 1 0.22 upregulate stage 405186 3.75 0.1 upregulate stage 405258 8.85 0.09 upregulate stage 405281 1 1 upregulate stage 405379 1 0.87 upregulate stage 405494 5 0.13 upregulate stage 405520 1 0.95 upregulate stage 405526 8.96 0.08 upregulate stage 405725 3.3 0.12 upregulate stage 405738 0.86 0.69 upregulate stage 405809 2.4 0.18 upregulate stage 405838 1 0.22 upregulate stage 405906 2.6 0.12 upregulate stage 406137 1.54 0.52 upregulate stage 406187 3.2 0.14 upregulate stage 406322 3.95 0.12 upregulate stage 406360 4.1 0.1 upregulate stage 406397 1 0.24 upregulate stage 406434 7.4 0.07 upregulate stage 406467 9.1 0.07 upregulate stage 406511 1 1 upregulate stage 406517 W28077 Hs.79389 nel (chicken)-like 2 1 1 upregulate stage 406588 0.93 0.91 upregulate stage 406651 AI559224 Hs.277477 major histocompatibility complex, class 10.1 0.07 upregulate stage 406665 U22961 Hs.75442 albumin 1.08 0.81 upregulate stage 406671 AA129547 Hs.285754 met proto-oncogene (hepatocyte growth fa 5.7 0.12 upregulate stage 406687 M31126 Hs.272620 pregnancy specific beta-1-glycoprotein 9 1.95 0.3 upregulate stage 406732 AA487229 Hs.2064 vimentin 1 0.77 upregulate stage 406747 AI925153 Hs.217493 annexin A2 3.6 0.14 upregulate stage 406753 AA505665 Hs.217493 annexin A2 5.45 0.13 upregulate stage 406815 AA833930 Hs.288036 tRNA isopentenylpyrophosphate transferas 3.65 0.09 upregulate stage 406850 AI624300 Hs.172928 collagen, type I, alpha 1 1.29 0.62 upregulate stage 406892 D55643 gb: Human spleen PABL (pseudoautosomal bo 1 1 upregulate stage 406944 J04742 Hs.247945 Human autonomous replicating sequence H1 1 1 upregulate stage 406950 L17325 Hs.278 pre-T/NK cell associated protein 1 0.36 upregulate stage 406961 L77563 gb: Homo sapiens DGS-F partial mRNA. 1 1 upregulate stage 406964 M21305 Hs.247946 Human alpha satellite and satellite 3 ju 42.25 0.01 upregulate stage 406993 S83249 gb: NG-TRA = transporter protein/putative h 1 1 upregulate stage 407017 U48697 gb: Human mariner-like element-containing 1 1 upregulate stage 407073 Y10510 gb: H. sapiens mRNA for CD67S protein. 1 0.53 upregulate stage 407105 S64699 Hs.663 cystic fibrosis transmembrane conductanc 1 1 upregulate stage 407128 R83312 Hs.237260 EST 1 1 upregulate stage 407132 T02871 Hs.228523 EST 1 0.45 upregulate stage 407137 T97307 Hs.199067 v-erb-b2 avian erythroblastic leukemia v 14.3 0.05 upregulate stage 407158 N49839 gb: yz08b10.s1 Soares multiple_sclerosis_(—) 1 0.57 upregulate stage 407175 T86603 gb: yd87d12.s1 Soares fetal liver spleen 1 0.31 upregulate stage 407186 AA435610 gb: zt74b11.s1 Soares_testis_NHT Homo sap 1 1 upregulate stage 407189 AA598927 gb: ae37e03.s1 Gessler Wilms tumor Homo s 1 1 upregulate stage 407192 AA609200 gb: af12e02.s1 Soares_testis_NHT Homo sap 6.05 0.12 upregulate stage 407195 C21124 gb: HUMGS0002072 Human adult (K. Okubo) Ho 1 1 upregulate stage 407202 N58172 Hs.109370 ESTs 3.7 0.16 upregulate stage 407204 R41933 Hs.140237 ESTs, Weakly similar to AF119917 13 PRO1 10.2 0.06 upregulate stage 407205 R78910 Hs.272620 pregnancy specific beta-1-glycoprotein 9 1.9 0.22 upregulate stage 407211 T95828 Hs.230070 EST 1 0.59 upregulate stage 407346 AI090210 Hs.264106 ESTs 1 1 upregulate stage 407422 AF116633 gb: Homo sapiens PRO1318 mRNA, complete c 1 0.22 upregulate stage 407494 U10072 gb: Human forkhead family (AFX1) mRNA, pa 4.1 0.13 upregulate stage 407547 Y10259 gb: H. sapiens ACTH receptor mRNA 3′UTR. 2.45 0.19 upregulate stage 407564 AA042860 Hs.103005 ESTs 1 1 upregulate stage 407603 AW955705 Hs.62604 ESTs 1.18 0.73 upregulate stage 407634 AW016569 Hs.301280 ESTs, Highly similar to AF241831 1 intra 9.6 0.06 upregulate stage 407668 BE161086 Hs.279817 ESTs 1 0.39 upregulate stage 407709 AA456135 Hs.23023 ESTs 6.8 0.12 upregulate stage 407710 AW022727 Hs.23616 ESTs 3.9 0.14 upregulate stage 407725 BE388094 Hs.21857 ESTs 9.97 0.07 upregulate stage 407729 T40707 Hs.270862 ESTs 9.2 0.09 upregulate stage 407774 AA084958 gb: zn13d12.r1 Stratagene hNT neuron (937 2.65 0.22 upregulate stage 407788 BE514982 Hs.38991 S100 calcium-binding protein A2 2.1 0.34 upregulate stage 407811 AW190902 Hs.40098 cysteine knot superfamily 1, BMP antagon 8.45 0.06 upregulate stage 407813 AL120247 Hs.40109 KIAA0872 protein 9.1 0.08 upregulate stage 407833 AW955632 Hs.66666 ESTs 9.2 0.07 upregulate stage 407839 AA045144 Hs.161566 ESTs 2.11 0.25 upregulate stage 407853 AA336797 Hs.40499 dickkopf (Xenopus laevis) homolog 1 1 0.34 upregulate stage 407881 AW072003 Hs.40968 heparan sulfate (glucosamine) 3-O-sulfot 3.52 0.18 upregulate stage 407882 AI241264 Hs.62772 ESTs 1 0.26 upregulate stage 407910 AA650274 Hs.41296 fibronectin leucine rich transmembrane p 13.6 0.05 upregulate stage 407911 AF104922 Hs.41565 growth differentiation factor 8 1 1 upregulate stage 407912 AW104401 Hs.243489 ESTs, Weakly similar to AF151881 1 CGI-1 10.35 0.07 upregulate stage 407935 U31986 Hs.41683 cartilage paired-class homeoprotein 1 4.25 0.12 upregulate stage 407939 W05608 gb: za85e07.r1 Soares_fetal_lung_NbHL19W 8.75 0.09 upregulate stage 407944 R34008 Hs.239727 desmocollin 2 9.2 0.06 upregulate stage 407945 X69208 Hs.606 ATPase, Cu++ transporting, alpha polypep 1.45 0.25 upregulate stage 407946 AA226495 Hs.154292 ESTs 9.4 0.07 upregulate stage 407949 W21874 Hs.247057 ESTs 3.32 0.2 upregulate stage 407974 AW968123 Hs.146401 small inducible cytokine subfamily E, me 3.55 0.14 upregulate stage 407983 U40371 Hs.41718 phosphodiesterase 1C, calmodulin-depende 8.95 0.07 upregulate stage 407994 AW135309 Hs.244331 ESTs 4.5 0.12 upregulate stage 408000 L11690 Hs.620 bullous pemphigoid antigen 1 (230/240 kD) 2.89 0.19 upregulate stage 408014 AA723782 Hs.41749 protein kinase, cGMP-dependent, type II 1.31 0.53 upregulate stage 408031 AA081395 Hs.42173 Homo sapiens cDNA FLJ10366 fis, clone NT 3.6 0.17 upregulate stage 408046 AW139121 Hs.183643 ESTs 1 0.36 upregulate stage 408063 BE086548 Hs.42346 calcineurin-binding protein calsarcin-1 10.75 0.05 upregulate stage 408092 NM_007057 Hs.42650 ZW10 interactor 4.7 0.13 upregulate stage 408101 AW968504 Hs.123073 CDC2-related protein kinase 7 4.5 0.14 upregulate stage 408141 U69205 Hs.45152 ESTs, Moderately similar to neurogenic b 4.4 0.13 upregulate stage 408170 AW204516 Hs.31835 ESTs 5.85 0.13 upregulate stage 408184 AW168741 Hs.22249 ESTs 1 1 upregulate stage 408224 AW175997 gb: QV0-BT0078-190899-005-E02 BT0078 Homo 1 0.44 upregulate stage 408239 AA053401 Hs.271827 ESTs, Moderately similar to ALU7_HUMAN A 9.95 0.04 upregulate stage 408241 AW176546 gb: MR0-CT0063-200899-001-a01 CT0063 Homo 2.8 0.17 upregulate stage 408268 AL138247 gb: DKFZp547D237_r1 547 (synonym: hfbr1) 1 0.61 upregulate stage 408277 AW177959 gb: IL3-HT0060-200899-008-D03 HT0060 Homo 1 1 upregulate stage 408306 BE141991 gb: PM2-HT0134-220999-002-d10 HT0134 Homo 1 1 upregulate stage 408352 AA053875 Hs.95310 ESTs 1 1 upregulate stage 408360 AI806090 Hs.44344 hypothetical protein FLJ20534 9.15 0.08 upregulate stage 408393 AW015318 Hs.23165 ESTs 9.35 0.07 upregulate stage 408396 AA330496 Hs.40840 ESTs 1 0.61 upregulate stage 408442 R59608 Hs.21435 ESTs 1 1 upregulate stage 408514 AW206559 Hs.255903 ESTs 1 0.34 upregulate stage 408572 AA055611 Hs.226568 ESTs, Moderately similar to ALU4_HUMAN A 1 0.33 upregulate stage 408617 R61736 Hs.124128 ESTs 2.75 0.14 upregulate stage 408633 AW963372 Hs.46677 PRO2000 protein 3.14 0.25 upregulate stage 408706 AW438503 Hs.256935 ESTs 8.45 0.09 upregulate stage 408713 NM_001248 Hs.47042 ectonucleoside triphosphate diphosphohyd 2.81 0.21 upregulate stage 408725 AA131539 Hs.15669 ESTs 9.1 0.08 upregulate stage 408728 AL137379 Hs.47125 hypothetical protein FLJ13912 3.1 0.11 upregulate stage 408738 NM_014785 Hs.47313 KIAA0258 gene product 4.4 0.13 upregulate stage 408739 W01556 Hs.238797 ESTs 5.65 0.11 upregulate stage 408754 N31256 Hs.161623 ESTs 1 1 upregulate stage 408765 AA057268 Hs.146013 ESTs 8.75 0.09 upregulate stage 408805 H69912 Hs.48269 vaccinia related kinase 1 4.95 0.12 upregulate stage 408813 AI580090 Hs.48295 RNA helicase family 3.65 0.17 upregulate stage 408817 AA524525 Hs.279864 PRO1996 protein 6.15 0.12 upregulate stage 408849 BE219451 Hs.254919 ESTs 1 0.32 upregulate stage 408902 AW014869 Hs.5510 ESTs 3.3 0.15 upregulate stage 408908 BE296227 Hs.48915 serine/threonine kinase 15 5.65 0.1 upregulate stage 408916 AW295232 Hs.22893 ESTs 10 0.08 upregulate stage 408933 AA058979 Hs.182133 ESTs, Highly similar to ADP-ribosylation 1 0.91 upregulate stage 408943 NM_007070 Hs.49105 FKBP-associated protein 3.45 0.16 upregulate stage 408960 BE158389 Hs.300976 ESTs 6.3 0.1 upregulate stage 409032 AW301807 Hs.297260 ESTs 8.4 0.08 upregulate stage 409093 BE243834 Hs.50441 CGI-04 protein 1.71 0.49 upregulate stage 409099 AK000725 Hs.50579 hypothetical protein FLJ20718 10.1 0.07 upregulate stage 409142 AL136877 Hs.50758 chromosome-associated polypeptide C 11.85 0.05 upregulate stage 409203 AA780473 Hs.687 cytochrome P450, subfamily IVB, polypept 2.83 0.24 upregulate stage 409231 AA446644 Hs.692 tumor-associated calcium signal transduc 9.34 0.08 upregulate stage 409262 AK000631 Hs.52256 hypothetical protein FLJ20624 8.7 0.09 upregulate stage 409357 M73628 Hs.54415 casein, kappa 1.6 0.2 upregulate stage 409402 AF208234 Hs.695 cystatin B (stefin B) 1.57 0.56 upregulate stage 409405 AA075869 Hs.126400 ESTs, Highly similar to RL39_HUMAN 60S R 2.6 0.12 upregulate stage 409408 AW387837 gb: MR4-ST0118-021299-021-f08 ST0118 Homo 4.3 0.15 upregulate stage 409420 Z15008 Hs.54451 laminin, gamma 2 (nicein (100 kD), kalini 8.28 0.06 upregulate stage 409509 AL036923 Hs.127006 ESTs 10.2 0.06 upregulate stage 409566 AA078899 gb: zm94b01.r1 Stratagene colon HT29 (937 1 0.56 upregulate stage 409575 AW419225 Hs.256247 ESTs 2.15 0.14 upregulate stage 409582 R27430 Hs.271565 ESTs 7.3 0.07 upregulate stage 409632 W74001 Hs.55279 serine (or cysteine) proteinase inhibito 3.78 0.19 upregulate stage 409642 AW450809 Hs.257347 ESTs 9.55 0.07 upregulate stage 409674 AI935146 Hs.278611 UDP-N-acetyl-alpha-D-galactosamine: polyp 1 0.29 upregulate stage 409691 T89983 Hs.246042 ESTs 1 1 upregulate stage 409703 NM_006187 Hs.56009 2′-5′ oligoadenylate synthetase 3 2.22 0.36 upregulate stage 409727 N63786 Hs.94149 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 0.57 upregulate stage 409760 AA302840 gb: EST10534 Adipose tissue, white I Homo 9.95 0.06 upregulate stage 409789 BE256027 Hs.180946 ribosomal protein L5 1 0.83 upregulate stage 409794 AW885691 gb: RC4-OT0071-240300-013-b04 OT0071 Homo 1 1 upregulate stage 409977 AW805510 Hs.97056 hypothetical protein FLJ21634 9.65 0.07 upregulate stage 409985 AW291944 Hs.122139 ESTs 4.35 0.14 upregulate stage 409989 R37868 Hs.13333 ESTs 1 0.21 upregulate stage 409995 AW960597 Hs.30164 ESTs 5.05 0.12 upregulate stage 410013 AF067173 Hs.57904 mago-nashi (Drosophila) homolog, prolife 3.05 0.26 upregulate stage 410044 BE566742 Hs.58169 highly expressed in cancer, rich in leuc 3.15 0.09 upregulate stage 410071 AW582568 gb: RC1-ST0278-080100-011-h04 ST0278 Home 2.5 0.18 upregulate stage 410102 AW248508 Hs.279727 Homo sapiens cDNA FLJ14035 fis, clone HE 8 0.06 upregulate stage 410114 AW590540 Hs.271280 ESTs 5.1 0.14 upregulate stage 410117 AK001586 Hs.58650 hypothetical protein FLJ10724 1 1 upregulate stage 410153 BE311926 Hs.15830 Homo sapiens cDNA FLJ12691 fis, clone NT 4.7 0.11 upregulate stage 410181 AI468210 Hs.261285 pleiotropic regulator 1 (PRL1, Arabidops 1 0.23 upregulate stage 410196 AI936442 Hs.59838 hypothetical protein FLJ10808 6.05 0.09 upregulate stage 410252 AW821182 Hs.61418 microfibrillar-associated protein 1 5.55 0.12 upregulate stage 410259 AK000337 Hs.61485 hypothetical protein 10.1 0.07 upregulate stage 410276 AI554545 Hs.68301 ESTs 2.98 0.25 upregulate stage 410278 AW614396 Hs.282230 ESTs 1 0.28 upregulate stage 410325 AB023154 Hs.62264 KIAA0937 protein 6.85 0.13 upregulate stage 410356 BE244668 Hs.62643 dual adaptor of phosphotyrosine and 3-ph 1 1 upregulate stage 410388 AA831460 Hs.22039 hepatocyte nuclear factor 3, alpha 1 0.33 upregulate stage 410399 BE068889 Hs.63236 synuclein, gamma (breast cancer-specific 1.07 0.78 upregulate stage 410420 AA224053 Hs.172405 ESTs, Moderately similar to I52835 H-NUC 1 0.14 upregulate stage 410429 AA310600 Hs.63657 hypothetical protein FLJ11005 11.25 0.07 upregulate stage 410442 X73424 Hs.63788 propionyl Coenzyme A carboxylase, beta p 9.6 0.08 upregulate stage 410475 AW749927 gb: QV0-BT0537-231299-049-f03 BT0537 Home 9.8 0.08 upregulate stage 410495 N95428 gb: zb80d09.s1 Soares_senescent_fibroblas 11.3 0.06 upregulate stage 410501 AI675688 Hs.83286 ESTs 4.75 0.1 upregulate stage 410503 AW975746 Hs.188662 Homo sapiens cDNA: FLJ23421 fis, clone H 6.5 0.1 upregulate stage 410520 AW752710 gb: IL3-CT0219-281099-024-A03 CT0219 Homo 1 1 upregulate stage 410534 AW905138 gb: QV0-NN1071-280400-207-g07 NN1071 Homo 3.1 0.16 upregulate stage 410537 AW753108 gb: PM1-CT0247-080100-008-e10 CT0247 Homo 10.35 0.08 upregulate stage 410553 AW016824 Hs.68784 ESTs 1.67 0.41 upregulate stage 410560 N29220 gb: yx43b05.r1 Soares melanocyte 2NbHM Ho 9 0.07 upregulate stage 410561 BE540255 Hs.6994 Homo sapiens cDNA: FLJ22044 fis, clone H 6.2 0.11 upregulate stage 410562 AW858528 gb: CM3-CT0341-150300-119-h11 CT0341 Homo 1 1 upregulate stage 410579 AK001628 Hs.64691 KIAA0483 protein 11.1 0.06 upregulate stage 410634 AW888653 Hs.266859 ESTs 1 1 upregulate stage 410664 NM_006033 Hs.65370 lipase, endothelial 3.95 0.1 upregulate stage 410668 BE379794 Hs.65403 hypothetical protein 1.82 0.41 upregulate stage 410730 AW368860 Hs.293950 ESTs 9.25 0.07 upregulate stage 410751 AA357918 gb: EST66726 Fetal lung III Homo sapiens 1 1 upregulate stage 410754 T63840 gb: yc16b10.s1 Stratagene lung (937210) H 3.1 0.14 upregulate stage 410762 AF226053 Hs.66170 HSKM-B protein 5.55 0.1 upregulate stage 410764 AW978159 Hs.250164 ESTs, Weakly similar to coded for by C. 1 0.2 upregulate stage 410782 AW504860 Hs.288836 Homo sapiens cDNA FLJ12673 fis, clone NT 1.75 0.25 upregulate stage 410794 AA248010 Hs.154669 ESTs 1 0.67 upregulate stage 410804 U64820 Hs.66521 Machado-Joseph disease (spinocerebellar 3.2 0.17 upregulate stage 410844 AW807073 gb: MR4-ST0062-031199-018-d06 ST0062 Homo 1 0.8 upregulate stage 410855 X97795 Hs.66718 RAD54 (S. cerivisiae)-like 6.5 0.12 upregulate stage 410910 AW810204 gb: MR4-ST0125-021199-017-d08 ST0125 Homo 9.35 0.08 upregulate stage 410973 AW812278 gb: RC0-ST0174-211099-011-h12 ST0174 Homo 1 1 upregulate stage 410976 R36207 Hs.25092 ESTs 8.35 0.1 upregulate stage 410997 AW812877 gb: RC3-ST0186-300100-017-e04 ST0186 Homo 1 1 upregulate stage 410998 W28247 Hs.82007 KIAA0094 protein 2.45 0.18 upregulate stage 411036 AA857218 Hs.297007 ESTs 4.05 0.14 upregulate stage 411110 H93000 gb: yv07f01.s1 Soares fetal liver spleen 1 0.36 upregulate stage 411132 AW819191 gb: CM1-ST0283-071299-061-d08 ST0283 Homo 1 1 upregulate stage 411137 AW819455 gb: RC5-ST0293-021299-031-A04 ST0293 Homo 3.65 0.18 upregulate stage 411157 AW819867 gb: QV0-ST0294-070300-151-f02 ST0294 Homo 3.2 0.2 upregulate stage 411159 AW820178 gb: QV0-ST0294-100400-185-e07 ST0294 Homo 1 0.27 upregulate stage 411170 AW820503 gb: QV2-ST0298-140200-042-b05 ST0298 Homo 1 1 upregulate stage 411193 AW821484 gb: IL2-ST0311-211299-028-F12 ST0311 Homo 1 0.24 upregulate stage 411242 BE146808 gb: QV4-HT0222-181099-013-g03 HT0222 Homo 2.55 0.26 upregulate stage 411245 AW833441 gb: QV4-TT0008-271099-020-g01 TT0008 Homo 9.62 0.09 upregulate stage 411263 BE297802 Hs.69360 kinesin-like 6 (mitotic centromere-assoc 2.4 0.32 upregulate stage 411282 AW995011 gb: QV0-BN0040-170300-161-d07 BN0040 Homo 1 1 upregulate stage 411284 N28519 Hs.135191 ESTs, Weakly similar to unnamed protein 3.25 0.12 upregulate stage 411294 AW859729 Hs.42680 ESTs 1 1 upregulate stage 411327 AW836922 gb: QV1-LT0036-150200-074-h06 LT0036 Homo 1 0.37 upregulate stage 411338 AW731782 Hs.116122 ESTs, Weakly similar to unnamed protein 5 0.13 upregulate stage 411339 BE164598 gb: RC3-HT0470-120200-013-b10 HT0470 Homo 1 0.25 upregulate stage 411383 AA001394 Hs.69749 KIAA0087 gene product 3.6 0.18 upregulate stage 411387 AW842339 Hs.130815 hypothetical protein FLJ21870 8.75 0.09 upregulate stage 411400 AA311919 Hs.69851 GAR1 protein 12.1 0.07 upregulate stage 411425 AW846012 gb: RC2-CT0163-230999-003-E01 CT0163 Homo 1 0.74 upregulate stage 411461 AW847937 gb: IL3-CT0213-210200-042-D02 CT0213 Homo 1 1 upregulate stage 411526 AW850327 gb: IL3-CT0219-221199-029-D08 CT0219 Homo 1 1 upregulate stage 411560 AW851186 gb: IL3-CT0220-150200-071-H05 CT0220 Homo 2.8 0.17 upregulate stage 411568 BE144593 gb: MR0-HT0167-141199-002-f04 HT0167 Homo 1 1 upregulate stage 411571 AA122393 Hs.70811 hypothetical protein FLJ20516 3.55 0.14 upregulate stage 411605 AW006831 Hs.20479 ESTs 9.6 0.08 upregulate stage 411626 AW793453 Hs.71109 KIAA1229 protein 1 1 upregulate stage 411630 U42349 Hs.71119 Putative prostate cancer tumor suppresso 4.1 0.11 upregulate stage 411643 AI924519 Hs.192570 Homo sapiens cDNA: FLJ22028 fis, clone H 1 0.28 upregulate stage 411653 AF070578 Hs.71168 Homo sapiens clone 24674 mRNA sequence 8.9 0.08 upregulate stage 411727 AW858443 gb: CM0-CT0341-260100-160-f10 CT0341 Homo 1 1 upregulate stage 411771 AW993247 gb: RC2-BN0033-180200-014-h09 BN0033 Homo 2.6 0.14 upregulate stage 411787 AW863568 gb: MR3-SN0010-240300-102-c10 SN0010 Homo 1 1 upregulate stage 411788 AW897793 gb: CM1-NN0063-280400-203-f07 NN0063 Homo 3.7 0.15 upregulate stage 411826 AW947946 gb: PM0-MT0011-240300-001-a09 MT0011 Homo 3.25 0.13 upregulate stage 411835 U29343 Hs.72550 hyaluronan-mediated motility receptor (R 1 1 upregulate stage 411860 T89420 gb: yd98f04.s1 Soares fetal liver spleen 1 0.22 upregulate stage 411874 AA096106 Hs.20403 ESTs 5.75 0.11 upregulate stage 411917 AW876360 Hs.3592 Homo sapiens cDNA: FLJ22555 fis, clone H 1 0.33 upregulate stage 411928 AA888624 Hs.19121 adaptor-related protein complex 2, alpha 4.75 0.12 upregulate stage 411932 AW876548 gb: RC3-PT0028-190100-012-h02 PT0028 Homo 1 0.38 upregulate stage 411943 BE502436 Hs.7962 ESTs, Weakly similar to putative [C. eleg 3.82 0.23 upregulate stage 411945 AL033527 Hs.92137 v-myc avian myelocytomatosis viral oncog 4.65 0.15 upregulate stage 411991 X58822 Hs.73010 interferon, omega 1 2.45 0.14 upregulate stage 412040 D86519 Hs.73086 neuropeptide Y receptor Y6 (pseudogene) 4.6 0.14 upregulate stage 412088 AI689496 Hs.108932 ESTs 2.82 0.18 upregulate stage 412134 AW895560 gb: QV4-NN0038-270400-187-g08 NN0038 Homo 6.4 0.1 upregulate stage 412140 AA219691 Hs.73625 RAB6 interacting, kinesin-like (rabkines 17.05 0.04 upregulate stage 412231 AW902491 Hs.289088 heat shock 90 kD protein 1, alpha 1 0.91 upregulate stage 412296 AW936233 gb: QV0-DT0020-090200-107-a06 DT0020 Homo 1 1 upregulate stage 412327 AW937355 gb: QV3-DT0043-211299-044-a06 DT0043 Homo 1 1 upregulate stage 412357 AW939537 gb: QV1-DT0072-110200-066-f05 DT0072 Homo 1 0.24 upregulate stage 412359 AW837985 gb: QV3-LT0048-140200-083-e05 LT0048 Homo 1 0.41 upregulate stage 412367 AW945964 gb: QV0-ET0001-050500-228-e09 ET0001 Homo 1 0.22 upregulate stage 412529 BE271224 Hs.266273 Homo sapiens cDNA FLJ13346 fis, clone OV 4.45 0.14 upregulate stage 412530 AA766268 Hs.266273 Homo sapiens cDNA FLJ13346 fis, clone OV 9.3 0.08 upregulate stage 412537 AL031778 Hs.797 nuclear transcription factor Y, alpha 4.25 0.14 upregulate stage 412547 W27161 gb: 23a12 Human retina cDNA randomly prim 1 1 upregulate stage 412559 T31474 gb: EST33147 Human Embryo Homo sapiens cD 1 0.26 upregulate stage 412636 NM_004415 Hs.74316 desmoplakin (DPI, DPII) 12.05 0.05 upregulate stage 412648 AA115211 Hs.69658 EST 1 0.28 upregulate stage 412668 AA456195 Hs.10056 ESTs 10.75 0.07 upregulate stage 412671 AW977734 gb: EST389963 MAGE resequences, MAGO Homo 2.65 0.3 upregulate stage 412673 AL042957 Hs.31845 ESTs 4.6 0.11 upregulate stage 412723 AA648459 Hs.179912 ESTs 2.55 0.11 upregulate stage 412739 AA116018 Hs.271809 Homo sapiens cDNA: FLJ22406 fis, clone H 1.6 0.24 upregulate stage 412744 N31101 gb: yx52a03.r1 Soares melanocyte 2NbHM Ho 2 0.23 upregulate stage 412778 AA120882 Hs.159244 ESTs 1 1 upregulate stage 412811 H06382 Hs.21400 ESTs 1 0.49 upregulate stage 412838 D61870 gb: HUM218F11B Clontech human aorta polyA 1 0.34 upregulate stage 412854 BE004149 Hs.31161 ESTs 1 1 upregulate stage 413075 D59828 Hs.70953 ESTs 1 0.77 upregulate stage 413109 AW389845 Hs.110855 ESTs 3.93 0.1 upregulate stage 413117 BE066107 Hs.138484 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 0.22 upregulate stage 413119 BE065941 gb: RC3-BT0319-100100-012-d12 BT0319 Homo 1 0.87 upregulate stage 413141 BE166323 gb: QV4-HT0492-270100-086-e12 HT0492 Homo 5.45 0.12 upregulate stage 413219 AA878200 Hs.118727 Homo sapiens cDNA FLJ13692 fis, clone PL 2.54 0.19 upregulate stage 413228 AA127518 Hs.195870 ESTs 1 1 upregulate stage 413273 U75679 Hs.75257 Hairpin binding protein, histone 5.05 0.11 upregulate stage 413278 BE563085 Hs.833 interferon-stimulated protein, 15 kDa 1.45 0.5 upregulate stage 413294 BE144034 gb: MR0-HT0165-191199-004-a02 HT0165 Homo 1 1 upregulate stage 413324 V00571 Hs.75294 corticotropin releasing hormone 6.95 0.03 upregulate stage 413342 AA128535 gb: zl24e04.r1 Soares_pregnant_uterus_NbH 1 1 upregulate stage 413430 R22479 Hs.24650 Homo sapiens cDNA FLJ13047 fis, clone NT 3 0.18 upregulate stage 413707 BE158679 gb: CM0-HT0395-280100-169-c04 HT0395 Homo 1 0.28 upregulate stage 413743 BE161004 gb: PM0-HT0425-170100-002-h03 HT0425 Homo 1 1 upregulate stage 413753 U17760 Hs.301103 Human DNA sequence from clone 272L16 on 22.7 0.03 upregulate stage 413786 AW613780 Hs.13500 ESTs 9.9 0.07 upregulate stage 413792 BE166924 gb: CM4-HT0501-240300-519-f01 HT0501 Homo 1 1 upregulate stage 413804 T64682 gb: yc48b02.r1 Stratagene liver (937224) 0.99 0.75 upregulate stage 413833 Z15005 Hs.75573 centromere protein E (312 kD) 2.55 0.17 upregulate stage 413854 BE174300 Hs.44581 heat shock protein hsp70-related protein 1.25 0.24 upregulate stage 413918 AW015898 Hs.71245 ESTs 4 0.11 upregulate stage 413968 AW500374 Hs.64056 ESTs 10.85 0.07 upregulate stage 414091 T83742 gb: yd67g02.s1 Soares fetal liver spleen 8.9 0.1 upregulate stage 414099 U11313 Hs.75760 sterol carrier protein 2 10.3 0.06 upregulate stage 414116 AA587370 Hs.71584 ESTs 1 1 upregulate stage 414127 AI431863 Hs.135270 ESTs 2.85 0.13 upregulate stage 414169 AA136169 Hs.149335 ESTs 8.95 0.09 upregulate stage 414275 AW970254 Hs.889 Charot-Leyden crystal protein 7.05 0.05 upregulate stage 414304 AI621276 Hs.165998 DKFZP564M2423 protein 1 0.24 upregulate stage 414338 N80751 Hs.301471 ESTs 10.3 0.08 upregulate stage 414447 AA147549 Hs.109909 ESTs 3.4 0.16 upregulate stage 414494 AA768491 Hs.6783 Homo sapiens cDNA: FLJ22724 fis, clone H 3.4 0.18 upregulate stage 414520 AA148806 Hs.204046 ESTs 1 0.21 upregulate stage 414569 AF109298 Hs.118258 prostate cancer associated protein 1 3.1 0.18 upregulate stage 414575 H11257 Hs.295233 ESTs 3.1 0.15 upregulate stage 414597 H67472 Hs.34274 ESTs 4.6 0.11 upregulate stage 414643 H46177 Hs.119316 ESTs 1 0.28 upregulate stage 414658 X58528 Hs.76781 ATP-binding cassette, sub-family D (ALD) 7.75 0.08 upregulate stage 414661 T97401 Hs.21929 ESTs 1 0.26 upregulate stage 414683 S78296 Hs.76888 internexin neuronal intermediate filamen 2.72 0.25 upregulate stage 414735 BE468016 Hs.281904 ESTs 1 0.38 upregulate stage 414737 AI160386 Hs.125087 ESTs 5.5 0.1 upregulate stage 414747 U30872 Hs.77204 centromere protein F (350/400 kD, mitosin 3.19 0.24 upregulate stage 414774 X02419 Hs.77274 plasminogen activator, urokinase 1.45 0.49 upregulate stage 414783 AW069569 Hs.75839 zinc finger protein 6 (CMPX1) 4.65 0.13 upregulate stage 414799 AI752416 Hs.77326 insulin-like growth factor binding prote 1.7 0.46 upregulate stage 414833 T07114 gb: EST05003 Fetal brain, Stratagene (cat 4.5 0.13 upregulate stage 414883 AA926960 Hs.77550 CDC28 protein kinase 1 3.36 0.22 upregulate stage 414885 AA157531 Hs.269276 ESTs 2.7 0.21 upregulate stage 414918 AI219207 Hs.72222 Homo sapiens cDNA FLJ13459 fis, clone PL 0.87 0.69 upregulate stage 414985 C17372 gb: C17372 Clontech human aorta polyA + mR 1 0.42 upregulate stage 415025 AW207091 Hs.72307 ESTs 5.3 0.06 upregulate stage 415033 D31476 Hs.301448 Homo sapiens cDNA FLJ12152 fis, clone MA 1 1 upregulate stage 415060 AJ223810 Hs.43213 ESTs, Weakly similar to IEFS_HUMAN TRANS 6.05 0.1 upregulate stage 415068 Z19448 Hs.131887 ESTs, Weakly similar to ORF YNL227c [S.c 4.5 0.13 upregulate stage 415095 D59592 Hs.34745 ESTs 1 0.44 upregulate stage 415099 AI492170 Hs.77917 ubiquitin carboxyl-terminal esterase L3 2.27 0.29 upregulate stage 415104 D60076 gb: HUM084E10A Clontech human fetal brain 3.95 0.13 upregulate stage 415114 D60468 gb: HUM111A06B Clontech human fetal brain 2.05 0.2 upregulate stage 415138 C18356 Hs.78045 tissue factor pathway inhibitor 2 5.8 0.05 upregulate stage 415139 AW975942 Hs.48524 ESTs 1.15 0.21 upregulate stage 415148 Z36953 Hs.48527 ESTs 2.5 0.2 upregulate stage 415153 C03508 Hs.7000 ESTs 8.95 0.09 upregulate stage 415178 D80503 gb: HUM080A02B Human fetal brain (TFujiwa 1 0.15 upregulate stage 415217 H23983 Hs.26922 ESTs 1 0.31 upregulate stage 415227 AW821113 Hs.72402 ESTs 6.3 0.11 upregulate stage 415238 R37780 Hs.21422 ESTs 1 1 upregulate stage 415241 F02208 Hs.27214 ESTs 1 1 upregulate stage 415295 R41450 Hs.6546 ESTs 1 0.63 upregulate stage 415296 F05086 gb: HSC01A011 normalized infant brain cDN 5.65 0.1 upregulate stage 415327 H22769 Hs.1861 membrane protein, palmitoylated 1 (55 kD) 8.15 0.09 upregulate stage 415330 Z44693 Hs.21422 ESTs 3 0.2 upregulate stage 415336 T77664 Hs.78362 Human clone 23839 mRNA sequence 1 0.87 upregulate stage 415337 Z44881 Hs.9012 ESTs 8.8 0.07 upregulate stage 415352 F06565 gb: HSC1CG051 normalized infant brain cDN 1 1 upregulate stage 415364 F06771 gb: HSC1KD031 normalized infant brain cDN 1 1 upregulate stage 415371 R15239 gb: yf89b02.r1 Soares infant brain 1NIB H 5.1 0.13 upregulate stage 415412 F08049 Hs.52132 ESTs 4.25 0.16 upregulate stage 415451 H19415 Hs.268720 ESTs, Moderately similar to ALU1_HUMAN A 4.1 0.15 upregulate stage 415462 R52692 Hs.12698 ESTs 4.65 0.11 upregulate stage 415496 R37637 Hs.12286 ESTs 5.4 0.13 upregulate stage 415509 R40000 Hs.91968 ESTs 1 0.44 upregulate stage 415511 AI732617 Hs.182362 ESTs 9.3 0.03 upregulate stage 415542 R13474 Hs.290263 ESTs 9.7 0.08 upregulate stage 415569 Z43930 gb: HSC1OH121 normalized infant brain cDN 1 0.74 upregulate stage 415600 F12664 gb: HSC3CG021 normalized infant brain cDN 1 0.43 upregulate stage 415616 F12945 Hs.12294 ESTs 1 1 upregulate stage 415626 Z43847 gb: HSC1MC051 normalized infant brain cDN 1 1 upregulate stage 415635 F13168 gb: HSC3JF101 normalized infant brain cDN 1 0.26 upregulate stage 415750 AA167712 gb: zq39g08.s1 Stratagene hNT neuron (937 1 0.83 upregulate stage 415786 AW419196 Hs.257924 Homo sapiens cDNA FLJ13782 fis, clone PL 9 0.08 upregulate stage 415788 AW628686 Hs.78851 KIAA0217 protein 5.2 0.11 upregulate stage 415790 R23574 Hs.23545 ESTs 1 1 upregulate stage 415799 AA653718 Hs.225841 DKFZP434D193 protein 4.25 0.12 upregulate stage 415837 H05279 Hs.21758 ESTs 1 0.57 upregulate stage 415857 AA866115 Hs.301646 Homo sapiens cDNA FLJ11381 fis, clone HE 8.05 0.07 upregulate stage 415906 AI751357 Hs.288741 Homo sapiens cDNA: FLJ22256 fis, clone H 12.2 0.06 upregulate stage 415947 U04045 Hs.78934 mutS (E. coli) homolog 2 (colon cancer, 12.2 0.06 upregulate stage 415948 AA262226 gb: zs24h06.r1 NCI_CGAP_GCB1 Homo sapiens 1 1 upregulate stage 415979 H16427 Hs.271501 ESTs 4.85 0.13 upregulate stage 415989 AI267700 Hs.111128 ESTs 4.45 0.08 upregulate stage 416018 AW138239 Hs.78977 proprotein convertase subtilisin/kexin t 1 1 upregulate stage 416052 R12816 Hs.21164 ESTs 1.45 0.24 upregulate stage 416053 H16359 Hs.130648 ESTs 4.35 0.14 upregulate stage 416061 R45516 Hs.26119 ESTs 1 1 upregulate stage 416065 BE267931 Hs.78996 proliferating cell nuclear antigen 4.72 0.17 upregulate stage 416097 BE387371 Hs.301304 Homo sapiens cDNA: FLJ21017 fis, clone C 5.75 0.11 upregulate stage 416111 AA033813 Hs.79018 chromatin assembly factor 1, subunit A ( 8.4 0.09 upregulate stage 416135 AW473656 Hs.45119 ESTs 2.29 0.2 upregulate stage 416155 AI807264 Hs.205442 ESTs, Weakly similar to AF117610 1 inner 5.1 0.13 upregulate stage 416173 R52782 gb: yg99d09.r1 Soares infant brain 1NIB H 3.7 0.12 upregulate stage 416195 AW131940 Hs.104030 ESTs 1.1 0.16 upregulate stage 416196 W51955 Hs.73372 ESTs 3.25 0.14 upregulate stage 416203 H27794 Hs.269055 ESTs 1 0.32 upregulate stage 416209 AA236776 Hs.79078 MAD2 (mitotic arrest deficient, yeast, h 4.15 0.12 upregulate stage 416226 N55342 Hs.34372 ESTs 2.35 0.21 upregulate stage 416239 AL038450 Hs.48948 ESTs 4.05 0.14 upregulate stage 416241 N52639 Hs.32683 ESTs 5 0.09 upregulate stage 416254 H51703 Hs.13640 ESTs 1 0.95 upregulate stage 416269 AA177138 Hs.161671 ESTs 4.07 0.2 upregulate stage 416276 U41060 Hs.79136 LIV-1 protein, estrogen regulated 1.84 0.45 upregulate stage 416280 H44180 Ns. 181789 ESTs 1 1 upregulate stage 416309 R84694 Hs.79194 cAMP responsive element binding protein 9.35 0.08 upregulate stage 416324 H47983 Hs.1870 phenylalanine hydroxylase 5.15 0.13 upregulate stage 416332 H91284 Hs.244461 ESTs 1 1 upregulate stage 416343 H49213 gb: yq19e04.r1 Soares fetal liver spleen 1 1 upregulate stage 416353 T77127 Hs.191297 ESTs, Moderately similar to ALU6_HUMAN A 1.46 0.59 upregulate stage 416395 R94575 gb: yt73e10.s1 Soares fetal liver spleen 9.2 0.09 upregulate stage 416437 N48990 Hs.37204 ESTs 4.15 0.12 upregulate stage 416476 H58137 Hs.268639 ESTs 1 0.22 upregulate stage 416537 T99086 Hs.144904 nuclear receptor co-repressor 1 5.45 0.12 upregulate stage 416539 Y07909 Hs.79368 epithelial membrane protein 1 9.45 0.09 upregulate stage 416575 W02414 Hs.38383 ESTs 4.95 0.1 upregulate stage 416624 H69044 gb: yr77h05.s1 Soares fetal liver spleen 1 0.22 upregulate stage 416644 H70701 Hs.269135 ESTs 5.65 0.12 upregulate stage 416658 U03272 Hs.79432 fibrillin 2 (congenital contractural ara 9.65 0.05 upregulate stage 416682 R99700 Hs.36152 ESTs 1 0.25 upregulate stage 416690 H84078 Hs.108551 ESTs 5.35 0.13 upregulate stage 416709 R99369 Hs.283108 hemoglobin, gamma G 5.4 0.13 upregulate stage 416712 N68576 Hs.81602 ESTs 1 0.25 upregulate stage 416715 H79460 Hs.271722 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 0.32 upregulate stage 416731 T58115 Hs.10336 ESTs 1 0.4 upregulate stage 416734 H81213 Hs.14825 ESTs 3.8 0.16 upregulate stage 416735 R11275 Hs.194485 ESTs 11.5 0.06 upregulate stage 416738 N29218 Hs.40290 ESTs 1 0.42 upregulate stage 416856 N27833 Hs.269028 ESTs 2.6 0.22 upregulate stage 416883 AW140128 Hs.184902 ESTs 11.3 0.07 upregulate stage 416923 N32498 Hs.42829 ESTs 1 0.61 upregulate stage 416936 N21352 Hs.42987 ESTs, Weakly similar to ORF2 [M. musculus 1 1 upregulate stage 417018 M16038 Hs.80887 v-yes-1 Yamaguchi sarcoma viral related 11.3 0.05 upregulate stage 417079 U65590 Hs.81134 interleukin 1 receptor antagonist 5.04 0.15 upregulate stage 417134 N51220 Hs.269068 ESTs 1 0.24 upregulate stage 417185 NM_002484 Hs.81469 nucleotide binding protein 1 (E. coli Min 1.98 0.32 upregulate stage 417218 AA005247 Hs.285754 met proto-oncogene (hepatocyte growth fa 2.95 0.21 upregulate stage 417265 AL121369 Hs.281117 ESTs 1 0.3 upregulate stage 417283 N62840 Hs.48648 ESTs 1.05 0.27 upregulate stage 417308 H60720 Hs.81892 KIAA0101 gene product 9.2 0.09 upregulate stage 417320 AA195667 Hs.287324 ESTs 2.8 0.16 upregulate stage 417396 T98987 gb: ye66f02.r1 Soares fetal liver spleen 1 1 upregulate stage 417404 NM_007350 Hs.82101 pleckstrin homology-like domain, family 2.75 0.09 upregulate stage 417409 BE272506 Hs.82109 syndecan 1 1.92 0.44 upregulate stage 417448 AA203135 Hs.130186 ESTs 6.45 0.1 upregulate stage 417453 H73183 Hs.129885 ESTs, Moderately similar to unnamed prot 4.65 0.13 upregulate stage 417515 L24203 Hs.82237 ataxia-telangiectasia group D-associated 1.59 0.49 upregulate stage 417540 AA203600 Hs.152250 ESTs 1 1 upregulate stage 417576 AA339449 Hs.82285 phosphoribosylglycinamide formyltransfer 5.65 0.1 upregulate stage 417581 R26968 Hs.24104 ESTs, Weakly similar to ALU7_HUMAN ALU S 9.15 0.09 upregulate stage 417596 R07343 Hs.226823 ESTs 4.35 0.14 upregulate stage 417599 AA204688 Hs.136201 ESTs, Weakly similar to ALU7_HUMAN ALU S 0.94 0.9 upregulate stage 417620 R02530 Hs.191198 ESTs 9.1 0.07 upregulate stage 417638 R12490 Hs.189779 ESTs 1 0.32 upregulate stage 417650 T05870 Hs.100640 ESTs 1 0.22 upregulate stage 417715 AW969587 Hs.86366 ESTs 6.31 0.09 upregulate stage 417720 AA205625 Hs.208067 ESTs 4.65 0.11 upregulate stage 417742 R64719 gb: EST22d11 WATM1 Homo sapiens cDNA clon 4.15 0.13 upregulate stage 417750 AI267720 Hs.260523 neuroblastoma RAS viral (v-ras) oncogene 9.98 0.08 upregulate stage 417780 Z43482 Hs.82772 collagen, type XI, alpha 1 2.3 0.14 upregulate stage 417789 R50978 Hs.267054 ESTs 1.05 0.19 upregulate stage 417791 AW965339 Hs.111471 ESTs 5.35 0.1 upregulate stage 417850 AA215724 Hs.82741 primase, polypeptide 1 (49 kD) 1 1 upregulate stage 417898 AA826198 Hs.291851 ESTs 2.15 0.21 upregulate stage 417975 AA641836 Hs.30085 Homo sapiens cDNA: FLJ23186 fis, clone L 3.7 0.13 upregulate stage 418004 U37519 Hs.87539 aldehyde dehydrogenase 8 1.57 0.5 upregulate stage 418007 M13509 Hs.83169 matrix metalloproteinase 1 (interstitial 17.9 0.02 upregulate stage 418027 AB037807 Hs.83293 hypothetical protein 6.6 0.09 upregulate stage 418030 BE207573 Hs.83321 neuromedin B 12.2 0.04 upregulate stage 418068 AW971155 Hs.293902 ESTs, Weakly similar to prolyl 4-hydroxy 4.26 0.14 upregulate stage 418113 AI272141 Hs.83484 SRY (sex determining region Y)-box 4 5.21 0.15 upregulate stage 418134 AA397769 Hs.86617 ESTs 1 0.3 upregulate stage 418153 R13696 Hs.112830 ESTs 1 0.3 upregulate stage 418180 BE618087 Hs.83724 Human clone 23773 mRNA sequence 8.79 0.09 upregulate stage 418201 AA214345 Hs.98445 Homo sapiens cDNA: FLJ21652 fis, clone C 3.75 0.13 upregulate stage 418203 X54942 Hs.83758 CDC28 protein kinase 2 13.85 0.04 upregulate stage 418216 AA662240 Hs.283099 AF15q14 protein 9.75 0.07 upregulate stage 418236 AW994005 Hs.172572 hypothetical protein FLJ20093 10.75 0.05 upregulate stage 418250 U29926 Hs.83918 adenosine monophosphate deaminase (isofo 6.25 0.12 upregulate stage 418259 AA215404 Hs.137289 ESTs 11.5 0.07 upregulate stage 418268 AA810599 Hs.86643 ESTs 1 0.43 upregulate stage 418296 C01566 Hs.86671 ESTs 1 0.45 upregulate stage 418372 AA311833 Hs.84318 replication protein A1 (70 kD) 9.04 0.08 upregulate stage 418379 AA218940 Hs.137516 fidgetin-like 1 3.25 0.15 upregulate stage 418422 AW440068 Hs.59425 Homo sapiens cDNA: FLJ23323 fis, clone H 8.95 0.1 upregulate stage 418454 AA315308 gb: EST187095 Colon carcinoma (HCC) cell 2.5 0.15 upregulate stage 418462 BE001596 Hs.85266 integrin, beta 4 1.33 0.59 upregulate stage 418469 U34879 Hs.85279 hydroxysteroid (17-beta) dehydrogenase 1 1.21 0.71 upregulate stage 418478 U38945 Hs.1174 cyclin-dependent kinase inhibitor 2A (me 2.69 0.23 upregulate stage 418480 AA223929 Hs.86902 ESTs 1 1 upregulate stage 418498 T78248 gh: yd79f05.r1 Soares fetal liver spleen 1 0.47 upregulate stage 418516 NM_006218 Hs.85701 phosphoinositide-3-kinase, catalytic, al 5.4 0.14 upregulate stage 418546 AA224827 gb: nc32g04.s1 NCI_CGAP_Pr2 Homo sapiens 2.72 0.23 upregulate stage 418573 AA225188 gb: nc21h04.r1 NCI_CGAP_Pr1 Homo sapiens 9.95 0.07 upregulate stage 418577 AA225247 Hs.269300 ESTs, Weakly similar to B34087 hypotheti 1 0.77 upregulate stage 418578 U92459 Hs.86204 glutamate receptor, metabotropic 8 1 1 upregulate stage 418590 AI732672 Hs.252507 ESTs 1 0.59 upregulate stage 418592 X99226 Hs.284153 Fanconi anemia, complementation group A 4.75 0.13 upregulate stage 418612 AB037788 Hs.224961 cleavage and polyadenylation specific fa 1 0.23 upregulate stage 418624 AI734080 Hs.104211 ESTs 7.95 0.09 upregulate stage 418661 NM_001949 Hs.1189 Human mRNA for KIAA0075 gene, partial cd 3 0.15 upregulate stage 418663 AK001100 Hs.87013 Homo sapiens cDNA FLJ10238 fis, clone HE 17.2 0.04 upregulate stage 418675 AW299723 Hs.87223 bone morphogenetic protein receptor, typ 1 1 upregulate stage 418686 Z36830 Hs.87268 annexin A8 2.11 0.3 upregulate stage 418687 R61650 Hs.22581 ESTs 6.75 0.07 upregulate stage 418693 AI750878 Hs.87409 thrombospondin 1 4.5 0.08 upregulate stage 418704 AA227235 Hs.83286 ESTs 1 0.33 upregulate stage 418712 Z42183 gb: HSC0BF041 normalized infant brain cDN 1 0.91 upregulate stage 418717 AI334430 Hs.86984 ESTs 4.7 0.12 upregulate stage 418723 AA504428 Hs.10487 ESTs, Weakly similar to Weak similarity 5.85 0.1 upregulate stage 418738 AW388633 Hs.6682 ESTs 3.6 0.09 upregulate stage 418752 AL133556 Hs.88144 hypothetical protein FLJ12476 1 1 upregulate stage 418757 AI864193 Hs.169728 Homo sapiens cDNA FLJ13150 fis, clone NT 9.15 0.09 upregulate stage 418844 M62982 Hs.1200 arachidonate 12-lipoxygenase 9.25 0.08 upregulate stage 418867 D31771 Hs.89404 msh (Drosophila) homo box homolog 2 1.83 0.43 upregulate stage 418876 AA740616 Hs.293874 ESTs 11.3 0.06 upregulate stage 418903 AW969665 Hs.154848 ESTs 1 1 upregulate stage 418915 AI474778 Hs.118977 ESTs 4.75 0.12 upregulate stage 418939 AW630803 Hs.89497 lamin B1 2.6 0.13 upregulate stage 418945 BE246762 Hs.89499 arachidonate 5-lipoxygenase 1.45 0.53 upregulate stage 418976 AA933082 Hs.126883 ESTs 1 0.23 upregulate stage 419059 T86216 gb: yd84a05.r1 Soares fetal liver spleen 1 0.38 upregulate stage 419078 M93119 Hs.89584 insulinoma-associated 1 1.25 0.18 upregulate stage 419121 AA374372 Hs.89626 parathyroid hormone-like hormone 1 1 upregulate stage 419169 AW851980 Hs.262346 ESTs, Weakly similar to ORF2: function u 1.59 0.3 upregulate stage 419183 U60669 Hs.89663 cytochrome P450, subfamily XXIV (vitamin 3.55 0.05 upregulate stage 419218 AI248073 Hs.188723 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 0.27 upregulate stage 419226 AI342491 Hs.87413 ESTs 1 0.37 upregulate stage 419235 AW470411 Hs.288433 neurotrimin 11.9 0.07 upregulate stage 419286 AA236005 Hs.221303 ESTs 4.85 0.14 upregulate stage 419327 AA521504 Hs.190179 ESTs 1 1 upregulate stage 419355 AA428520 Hs.90061 progesterone binding protein 10.6 0.06 upregulate stage 419359 AL043202 Hs.90073 chromosome segregation 1 (yeast homolog) 1.84 0.47 upregulate stage 419413 AA237040 Hs.87589 ESTs 1 1 upregulate stage 419436 AA991639 Hs.15036 ESTs, Highly similar to AF161358 1 HSPC0 6.6 0.1 upregulate stage 419452 U33635 Hs.90572 PTK7 protein tyrosine kinase 7 1.31 0.64 upregulate stage 419472 AW978038 gb: EST390147 MAGE resequences, MAGO Homo 1 1 upregulate stage 419475 AA243420 Hs.87648 ESTs 1.1 0.24 upregulate stage 419477 AA826279 gb: od03g07.s1 NCI_CGAP_GCB1 Homo sapiens 1 0.56 upregulate stage 419484 AA243474 Hs.272128 Homo sapiens cDNA FLJ13901 fis, clone TH 1 0.22 upregulate stage 419506 N20912 Hs.42369 ESTs 1 1 upregulate stage 419554 AI732138 Hs.104318 ESTs 1 0.5 upregulate stage 419569 AI971651 Hs.91143 jagged 1 (Alagille syndrome) 1 0.91 upregulate stage 419594 AA013051 Hs.91417 topoisomerase (DNA) II binding protein 8.1 0.08 upregulate stage 419651 NM_007023 Hs.91971 cAMP-regulated guanine nucleotide exchan 1 1 upregulate stage 419666 NM_014810 Hs.92200 KIAA0480 gene product 5.2 0.12 upregulate stage 419737 H24185 Hs.92918 hypothetical protein 11.7 0.07 upregulate stage 419743 AW408762 Hs.127478 ESTs 6.1 0.09 upregulate stage 419752 AA249573 Hs.152618 ESTs 1.8 0.17 upregulate stage 419769 H27374 Hs.103483 ESTs 1 0.36 upregulate stage 419805 AW966945 gb: EST379019 MAGE resequences, MAGJ Homo 1 0.34 upregulate stage 419807 R77402 gb: yi75f11.s1 Soares placenta Nb2HP Homo 1 0.67 upregulate stage 419831 AW448930 Hs.5415 ESTs 7.05 0.1 upregulate stage 419833 AA251131 Hs.220697 ESTs 1.25 0.53 upregulate stage 419834 AA251139 gb: zs03g12.s1 NCI_CGAP_GCB1 Homo sapiens 1 1 upregulate stage 419923 AW081455 Hs.120219 ESTs 5.89 013 upregulate stage 419945 AW290975 Hs.118923 ESTs 1 0.24 upregulate stage 419962 AA830111 Hs.291917 ESTs 1 1 upregulate stage 419970 AW612022 Hs.263271 ESTs 9.15 0.09 upregulate stage 419986 AI345455 Hs.78915 GA-binding protein transcription factor, 3.05 0.17 upregulate stage 419998 AA252691 gb: zs26d09.r1 NCI_CGAP_GCB1 Homo sapiens 1 0.47 upregulate stage 420016 AW016908 Hs.88025 ESTs 1 0.8 upregulate stage 420047 AI478658 Hs.94631 brefeldin A-inhibited guanine nucleotide 4.8 0.11 upregulate stage 420076 AA827860 Hs.293717 ESTs 5.35 0.12 upregulate stage 420111 AA255652 gb: zs21h11.r1 NCI_CGAP_GCB1 Homo sapiens 5.3 0.11 upregulate stage 420145 AA809860 Hs.256284 ESTs 1 1 upregulate stage 420159 AI572490 Hs.99785 Homo sapiens cDNA: FLJ21245 fis, clone C 14.8 0.04 upregulate stage 420161 AI683069 Hs.175319 ESTs 4.7 0.11 upregulate stage 420184 AA188408 Hs.95665 hypothetical protein 4.35 0.15 upregulate stage 420226 AA773709 Hs.152818 ubiquitin specific protease 8 3.1 0.16 upregulate stage 420230 AL034344 Hs.298020 Homo sapiens cDNA FLJ11796 fis, clone HE 10.35 0.06 upregulate stage 420236 AA256763 Hs.291111 ESTs 4.45 0.14 upregulate stage 420270 AA257990 gh: zs35h07.r1 NCI_CGAP_GCB1 Homo sapiens 10.05 0.08 upregulate stage 420297 AI628272 Hs.88323 ESTs 9.45 0.09 upregulate stage 420344 BE463721 Hs.97101 putative G protein-coupled receptor 11.7 0.05 upregulate stage 420392 AI242930 Hs.97393 KIAA0328 protein 1.7 0.22 upregulate stage 420413 AW971624 Hs.120605 ESTs 1 1 upregulate stage 420445 AA262213 Hs.193514 ESTs 1 1 upregulate stage 420471 AA262452 Hs.192268 ESTs 3.95 0.13 upregulate stage 420479 AW183695 Hs.186572 ESTs 4.95 0.12 upregulate stage 420493 AI635113 Hs.270366 Homo sapiens mRNA; cDNA DKFZp564H0616 (f 4.4 0.15 upregulate stage 420552 AK000492 Hs.98806 hypothetical protein 11.55 0.06 upregulate stage 420572 AL035593 Hs.99016 Human DNA sequence from clone 310J6 on c 1.35 0.22 upregulate stage 420643 W87731 gb: zh65g10.r1 Soares_fetal_liver_spleen_(—) 1.25 0.25 upregulate stage 420650 AA455706 Hs.44581 heat shock protein hsp70-related protein 7.3 0.09 upregulate stage 420654 AA279091 Hs.104420 ESTs 1 0.27 upregulate stage 420655 R74405 Hs.300886 ESTs 1 1 upregulate stage 420717 AA284447 Hs.271887 ESTs 9 0.09 upregulate stage 420734 AW972872 Hs.293736 ESTs 5.2 0.13 upregulate stage 420756 AA411800 Hs.189900 ESTs 1 1 upregulate stage 420789 AI670057 Hs.199882 ESTs 8.85 0.06 upregulate stage 420802 U22376 Hs.1334 v-myb avian myeloblastosis viral oncogen 4.6 0.12 upregulate stage 420851 AA281062 Hs.250734 ESTs 8.35 0.08 upregulate stage 420880 AI809621 Hs.105620 ESTs 1 1 upregulate stage 420923 AF097021 Hs.273321 differentially expressed in hematopoieti 10.4 0.03 upregulate stage 420928 AA281809 gb: zt10e01.r1 NCI_CGAP_GCB1 Homo sapiens 1 1 upregulate stage 420936 AA456112 Hs.99410 ESTs 8.71 0.07 upregulate stage 420947 AA491044 Hs.47196 ESTs 1 0.38 upregulate stage 421017 AW979181 Hs.293221 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 1 upregulate stage 421064 AI245432 Hs.101382 tumor necrosis factor, alpha-induced pro 1.26 0.62 upregulate stage 421070 AA283185 Hs.19327 ESTs 2.2 0.14 upregulate stage 421100 AW351839 Hs.124660 Homo sapiens cDNA: FLJ21763 fis, clone C 1.69 0.28 upregulate stage 421102 AI470093 Hs.89217 ESTs 2.65 0.19 upregulate stage 421103 AI625835 Hs.27104 ESTs 6 0.1 upregulate stage 421114 AW975051 Hs.293156 ESTs 4.7 0.12 upregulate stage 421118 AI471925 Hs.89257 ESTs 1 0.39 upregulate stage 421155 H87879 Hs.102267 lysyl oxidase 1.15 0.18 upregulate stage 421159 AW978316 Hs.136649 ESTs 1 0.44 upregulate stage 421187 NM_014721 Hs.102471 KIAA0680 gene product 5.7 0.11 upregulate stage 421218 NM_000499 Hs.72912 cytochrome P450, subfamily I (aromatic c 0.07 2.55 upregulate stage 421221 AW276914 Hs.300877 ESTs 8.75 0.07 upregulate stage 421229 AI056590 Hs.7086 Homo sapiens cDNA: FLJ23000 fis, clone L 1.64 0.49 upregulate stage 421261 AA600853 Hs.98133 ESTs 10.9 0.07 upregulate stage 421262 AA286746 Hs.9343 Homo sapiens cDNA FLJ14265 fis, clone PL 2.65 0.16 upregulate stage 421278 AI367919 Hs.99691 ESTs 1 0.56 upregulate stage 421280 AA811804 gb: ob39a05.s1 NCI_CGAP_GCB1 Homo sapiens 1 0.34 upregulate stage 421282 AA286914 Hs.183299 ESTs 9 0.08 upregulate stage 421306 AA806207 Hs.125889 ESTs 1 0.95 upregulate stage 421308 AA687322 Hs.192843 ESTs 2.85 0.15 upregulate stage 421373 AA808229 Hs.167771 ESTs 2.45 0.14 upregulate stage 421379 Y15221 Hs.103982 small inducible cytokine subfamily B (Cy 1.6 0.26 upregulate stage 421381 AA361752 gb: EST71314 T-cell lymphoma Homo sapiens 5.05 0.09 upregulate stage 421418 AA806639 gb: obB8g05.s1 NCI_CGAP_GCB1 Homo sapiens 6.55 0.1 upregulate stage 421433 AI829192 Hs.134805 ESTs 9.9 0.07 upregulate stage 421451 AA291377 Hs.50831 ESTs 11.9 0.06 upregulate stage 421491 H99999 Hs.42736 ESTs 3 0.2 upregulate stage 421493 BE300341 Hs.104925 ectodermal-neural cortex (with BTB-like 2.51 0.32 upregulate stage 421559 NM_014720 Hs.105751 Ste20-related serine/threonine kinase 9 0.09 upregulate stage 421577 BE465451 Hs.105925 single-minded (Drosophila) homolog 1 5.75 0.12 upregulate stage 421673 H54384 Hs.36892 ESTs 1 1 upregulate stage 421685 AF189723 Hs.106778 ATPase, Ca++ transporting, type 2C, memb 9.45 0.07 upregulate stage 421708 AW754341 gb: CM0-CT0341-181299-130-h12 CT0341 Homo 1 0.47 upregulate stage 421733 AL119671 Hs.1420 fibroblast growth factor receptor 3 (ach 1.97 0.33 upregulate stage 421838 AW881089 Hs.108806 Homo sapiens mRNA; cDNA DKFZp566M0947 (f 7.05 0.1 upregulate stage 421869 AB003592 Hs.109050 contactin 6 1 1 upregulate stage 421925 S80310 Hs.109620 acidic epididymal glycoprotein-like 1 1 1 upregulate stage 421948 L42583 Hs.111758 keratin 6A 51.9 0.01 upregulate stage 421958 AA357185 Hs.109918 ras homolog gene family, member H 10.17 0.07 upregulate stage 421991 NM_014918 Hs.110488 KIAA0990 protein 4.5 0.17 upregulate stage 422026 U80736 Hs.110826 trinucleotide repeat containing 9 6.5 0.08 upregulate stage 422072 AB018255 Hs.111138 KIAA0712 gene product 9.2 0.08 upregulate stage 422094 AF129535 Hs.272027 F-box only protein 5 6.95 0.09 upregulate stage 422158 L10343 Hs.112341 protease inhibitor 3, skin-derived (SKAL 1.66 0.17 upregulate stage 422168 AA586894 Hs.112408 S100 calcium-binding protein A7 (psorias 3.96 0.1 upregulate stage 422182 AL043892 Hs.180582 Homo sapiens cDNA: FLJ21836 fis, clone H 2.8 0.16 upregulate stage 422204 AA339015 gb: EST44247 Fetal brain I Homo sapiens c 1 1 upregulate stage 422261 AA307595 Hs.119908 nucleolar protein NOP5/NOP58 1 1 upregulate stage 422271 AB038995 Hs.114159 RAB-8b protein 5.04 0.16 upregulate stage 422278 AF072873 Hs.114218 frizzled (Drosophila) homolog 6 3.46 0.24 upregulate stage 422282 AF019225 Hs.114309 apolipoprotein L 4.54 0.14 upregulate stage 422322 AB022192 Hs.115240 peroxisome biogenesis factor 13 1 0.53 upregulate stage 422330 D30783 Hs.115263 epiregulin 4.45 0.06 upregulate stage 422342 AA309272 gb: EST180209 Liver, hepatocellular carci 2.25 0.19 upregulate stage 422406 AF025441 Hs.116206 Opa-interacting protein 5 9.5 0.07 upregulate stage 422487 AJ010901 Hs.198267 mucin 4, tracheobronchial 7.35 0.04 upregulate stage 422491 AA338548 Hs.117546 neuronatin 0.64 1.24 upregulate stage 422504 AA311407 gb: EST182167 Jurkat T-cells V Homo sapie 3.6 0.11 upregulate stage 422505 AL120862 Hs.124165 ESTs 2.8 0.14 upregulate stage 422508 AJ000327 Hs.117852 ATP-binding cassette, sub-family D (ALD) 5.25 0.14 upregulate stage 422530 AW972300 Hs.118110 bone marrow stromal cell antigen 2 2.57 0.31 upregulate stage 422540 AI050751 Hs.22895 Homo sapiens cDNA: FLJ23548 fis, clone L 1 0.59 upregulate stage 422588 AA312730 gb: EST183651 Monocytes, stimulated II Ho 3 0.14 upregulate stage 422678 AA247778 Hs.119155 Homo sapiens mRNA; cDNA DKFZp434B249 (fr 10.7 0.07 upregulate stage 422762 AL031320 Hs.119976 Human DNA sequence from clone RP1-20N2 o 5.1 0.13 upregulate stage 422809 AK001379 Hs.121028 hypothetical protein FLJ10549 5.94 0.1 upregulate stage 422823 D89974 Hs.121102 vanin 2 10 0.07 upregulate stage 422892 AA988176 Hs.121553 hypothetical protein FLJ20641 1 0.27 upregulate stage 422938 NM_001809 Hs.1594 centromere protein A (17 kD) 7.2 0.08 upregulate stage 422964 AW439476 Hs.256895 ESTs 11.75 0.07 upregulate stage 422981 AF026445 Hs.122752 TATA box binding protein (TBP)-associate 3.05 0.14 upregulate stage 423001 AA320014 Hs.208603 ESTs 9.1 0.09 upregulate stage 423090 BE387529 Hs.123536 melanoma antigen, family E, 1, cancer/te 1 0.49 upregulate stage 423100 AA323114 gb: EST25873 Cerebellum II Homo sapiens c 1 1 upregulate stage 423121 AW864848 gb: PM2-SN0018-290300-003-c09 SN0018 Homo 2.8 0.19 upregulate stage 423156 AA131493 Hs.124752 fibroblast growth factor 12B 1 0.27 upregulate stage 423198 M81933 Hs.1634 cell division cycle 25A 8.95 0.07 upregulate stage 423217 NM_000094 Hs.1640 collagen, type VII, alpha 1 (epidermolys 1.2 0.57 upregulate stage 423262 NM_005479 Hs.126057 frequently rearranged in advanced T-cell 9.75 0.07 upregulate stage 423296 AW957193 Hs.3327 Homo sapiens cDNA: FLJ22219 fis, clone H 4.95 0.12 upregulate stage 423309 BE006775 Hs.126782 sushi-repeat protein 1.58 0.34 upregulate stage 423347 AI660412 Hs.234557 ESTs 1 0.45 upregulate stage 423359 NM_014170 Hs.127496 HSPC135 protein 1 0.69 upregulate stage 423368 AA364195 gb: EST75015 Pineal gland II Homo sapiens 1 0.95 upregulate stage 423389 AI471609 Hs.54347 ESTs 3.95 0.14 upregulate stage 423430 AF112481 Hs.128501 RAD54, S. cerivisiae, homolog of, B 1.62 0.43 upregulate stage 423441 R68649 Hs.278359 absent in melanoma 1 like 6.25 0.1 upregulate stage 423453 AW450737 Hs.128791 CGI-09 protein 8.45 0.09 upregulate stage 423500 AF020763 Hs.129705 clone 1900 unknown protein 1 0.8 upregulate stage 423578 AW960454 Hs.222830 ESTs 11.94 0.07 upregulate stage 423629 AW021173 Hs.18612 Homo sapiens cDNA: FLJ21909 fis, clone H 3.4 0.17 upregulate stage 423632 AA328824 gb: EST32358 Embryo, 12 week I Homo sapie 1 0.71 upregulate stage 423642 AW452650 Hs.157148 Homo sapiens cDNA FLJ11883 fis, clone HE 8.35 0.1 upregulate stage 423644 AA4329048 gb: EST32875 Embryo, 12 week I Homo sapie 1 0.43 upregulate stage 423648 AK000456 Hs.130546 hypothetical protein FLJ20449 10.4 0.07 upregulate stage 423651 AF192913 Hs.130683 zinc finger protein 180 (HHZ168) 5.75 0.1 upregulate stage 423654 AI674253 Hs.35828 ESTs 3.15 0.18 upregulate stage 423673 BE003054 Hs.1695 matrix metalloproteinase 12 (macrophage 29.7 0.02 upregulate stage 423725 AJ403108 Hs.132127 hypothetical protein LOC57822 4.1 0.16 upregulate stage 423745 AI809797 Hs.43222 ESTs 1 0.5 upregulate stage 423748 AI149048 Hs.30211 hypothetical protein FLJ22313 4.25 0.13 upregulate stage 423753 Y11312 Hs.132463 phosphoinositide-3-kinase, class 2, beta 1.18 0.71 upregulate stage 423758 AA338153 Hs.82124 laminin, beta 1 1 1 upregulate stage 423774 L39064 Hs.1702 interleukin 9 receptor 3.08 0.15 upregulate stage 423818 AA332439 gb: EST36554 Embryo, 8 week I Homo sapien 1 0.38 upregulate stage 423827 AI472828 Hs.172625 ESTs 1 0.43 upregulate stage 423837 AW937063 gb: PM3-DT0037-231299-001-g11 DT0037 Homo 1.44 0.55 upregulate stage 423912 BE091233 gb: PM0-BT0726-300300-001-H07 BT0726 Homo 1 1 upregulate stage 423938 AL049328 Hs.135642 Homo sapiens mRNA; cDNA DKFZp564E026 (fr 1 1 upregulate stage 423942 AF209704 Hs.135723 glycolipid transfer protein 11.65 0.05 upregulate stage 423944 T91433 Hs.128291 phesphodiesterase 10A 1 0.45 upregulate stage 423946 AL137344 Hs.135892 Homo sapiens mRNA; cDNA DKFZp76101311 (f 1 1 upregulate stage 423956 W28203 Hs.136169 Homo sapiens clone 25215 mRNA sequence, 5.35 0.09 upregulate stage 424006 AF054815 Hs.137548 CD84 antigen (leukocyte antigen) 8.8 0.06 upregulate stage 424008 R02740 Hs.137555 putative chemokine receptor; GTP-binding 3.14 0.19 upregulate stage 424012 AW368377 Hs.137569 tumor protein 63 kDa with strong homolog 2.6 0.26 upregulate stage 424073 U03493 Hs.138959 gap junction protein, alpha 7, 45 kD (con 1.8 0.22 upregulate stage 424075 AI807320 Hs.227630 RE1-silencing transcription factor 9.1 0.06 upregulate stage 424087 N69333 Hs.21638 ESTs 1 1 upregulate stage 424193 AK002005 Hs.142868 Homo sapiens cDNA FLJ11143 fis, clone PL 1 0.23 upregulate stage 424353 AA339646 gb: EST44755 Fetal brain I Home sapiens c 1 1 upregulate stage 424364 AW383226 Hs.201189 ESTs, Weakly similar to DRPLA [H. sapiens 2.18 0.33 upregulate stage 424406 D54120 Hs.146409 wingless-type MMTV integration site fami 2.05 0.17 upregulate stage 424420 BE614743 Hs.146688 prostaglandin E synthase 1.19 0.67 upregulate stage 424425 AB031480 Hs.146824 SPR1 protein 1.42 0.54 upregulate stage 424486 BE002477 Hs.278714 chloride intracellelar channel 6 1 0.27 upregulate stage 424490 AJ278016 Hs.55565 ankyrin repeat domain 3 2.02 0.39 upregulate stage 424492 AI133482 Hs.165210 ESTs 3.15 0.14 upregulate stage 424505 AA446131 Hs.124918 Homo sapiens cDNA FLJ13186 fis, close NT 11.55 0.05 upregulate stage 424513 BE385864 Hs.149894 mitochondrial translational initiation f 2.65 0.23 upregulate stage 424575 AL110217 Hs.150751 DKFZP572C163 protein 1 1 upregulate stage 424583 AF017445 Hs.150926 fucose-1-phosphate guanylyltransferase 1.8 0.26 upregulate stage 424589 AW854298 gb: RC3-CT0254-100500-211-c03 CT0254 Homo 0.85 0.94 upregulate stage 424602 AK002055 Hs.301129 Homo sapiens clone 23859 mRNA sequence 2.85 0.2 upregulate stage 424625 AW904466 Hs.151310 PDZ domain protein (Drosophila inaD-like 1 0.4 upregulate stage 424629 M90656 Hs.151393 glutamate-cysteine ligase, catalytic sub 1.41 0.52 upregulate stage 424643 AF241850 Hs.151428 ret finger protein 2 9.75 0.07 upregulate stage 424649 BE242035 Hs.151461 embryonic ectoderm development 5.85 0.13 upregulate stage 424653 AW977534 Hs.151469 calcium/calmodulin-dependent serine prot 1 0.56 upregulate stage 424670 W61215 Hs.116651 epithelial V-like antigen 1 1.42 0.52 upregulate stage 424690 BE538356 Hs.151777 Human translation initiation factor elF- 4.3 0.1 upregulate stage 424701 NM_005923 Hs.151988 mitogen-activated protein kinase kinase 3.85 0.11 upregulate stage 424702 AF250237 Hs.152009 G protein-coupled receptor 85 1 1 upregulate stage 424717 H03754 Hs.152213 wingless-type MMTV integration site fami 4.05 0.09 upregulate stage 424735 U31875 Hs.152677 Homo sapiens cDNA FLJ20338 fis, clone HE 1.04 0.59 upregulate stage 424736 AF230877 Hs.152701 microtubule-interacting protein that ass 1.11 0.65 upregulate stage 424749 NM_002451 Hs.152817 methylthioadenosine phosphorylase 1 1 upregulate stage 424834 AK001432 Hs.153408 Homo sapiens cDNA FLJ10570 fis, clone NT 18.5 0.03 upregulate stage 424841 AI280215 Hs.96885 ESTs 1 1 upregulate stage 424860 W60828 Hs.153529 Homo sapiens clone 24540 mRNA sequence 1 1 upregulate stage 424878 H57111 Hs.221132 ESTs 9.45 0.07 upregulate stage 424879 AA348013 Hs.159354 ESTs 10.7 0.07 upregulate stage 424888 AA348126 Hs.24882 ESTs 2.8 0.21 upregulate stage 424905 NM_002497 Hs.153704 NIMA (never in mitosis gene a)-related k 7.75 0.07 upregulate stage 424930 AA885344 Hs.96910 ESTs 1.45 0.38 upregulate stage 424948 AA348810 Hs.190503 ESTs 3.2 0.12 upregulate stage 424951 AW964082 gb: EST376155 MAGE resequences, MAGH Homo 8.75 0.09 upregulate stage 424993 F07625 gb: HSC2CF021 normalized infant brain cDN 1 1 upregulate stage 425020 U09368 Hs.154205 zinc finger protein 140 (clone pHZ-39) 1 1 upregulate stage 425024 R39235 Hs.12407 ESTs 2.65 0.13 upregulate stage 425057 AA826434 Hs.96944 ESTs 1 0.22 upregulate stage 425068 AL048716 Hs.154387 KIAA0103 gene product 9.5 0.07 upregulate stage 425081 X74794 Hs.154443 minichromosome maintenance deficient (S. 1.66 0.52 upregulate stage 425191 AF052146 Hs.155085 Homo sapiens clone 24653 mRNA sequence 1 0.32 upregulate stage 425216 U81504 Hs.155172 adaptor-related protein complex 3, beta 7.05 0.1 upregulate stage 425234 AW152225 Hs.165909 ESTs 19.7 0.04 upregulate stage 425239 BE567924 Hs.155244 pre-mRNA splicing factor similar to S. c 1 0.69 upregulate stage 425289 AW139342 Hs.155530 interferon, gamma-inducible protein 16 10.45 0.05 upregulate stage 425304 AA463844 Hs.31339 fibroblast growth factor 11 1.57 0.51 upregulate stage 425316 AA354977 Hs.191565 ESTs, Moderately similar to NSD1 protein 5.05 0.12 upregulate stage 425322 U63630 Hs.155637 protein kinase, DNA-activated, catalytic 14.7 0.05 upregulate stage 425362 AA355936 gb: EST64410 Jurkat T-cells VI Homo sapie 1 1 upregulate stage 425397 J04088 Hs.156346 topoisomerase (DNA) II alpha (170 kD) 8.24 0.09 upregulate stage 425403 AL023753 Hs.156406 Human DNA sequence from clone 1198H6 on 1 0.22 upregulate stage 425415 M13903 Hs.157091 involucrin 1.19 0.55 upregulate stage 425420 BE536911 Hs.234545 ESTs, Weakly similar to AF155135 1 novel 2.85 0.13 upregulate stage 425463 AK000740 Hs.157986 hypothetical protein FLJ20733 9 0.07 upregulate stage 425465 L18964 Hs.1904 protein kinase C, iota 9.6 0.07 upregulate stage 425467 R16484 Hs.190075 ESTs 1 0.83 upregulate stage 425492 AL021918 Hs.158174 zinc finger protein 184 (Kruppel-like) 3.2 0.15 upregulate stage 425607 U09860 Hs.158333 protease, serine, 7 (enterokinase) 1 1 upregulate stage 425608 AA360486 Hs.92448 ESTs 4.7 0.14 upregulate stage 425614 AI334963 Hs.156256 ESTs 2.65 0.14 upregulate stage 425641 D79758 Hs.14355 Homo sapiens cDNA FLJ13207 fis, clone NT 4.86 0.1 upregulate stage 425660 AA521184 Hs.105504 ESTs 1 0.31 upregulate stage 425665 AK001050 Hs.159066 hypothetical protein FLJ10188 1.25 0.19 upregulate stage 425672 AA361483 gb: EST70790 T-cell lymphoma Homo sapiens 1 1 upregulate stage 425707 AF115402 Hs.11713 E74-like factor 5 (ets domain transcript 3.96 0.13 upregulate stage 425726 AF085808 Hs.159330 uroplakin 3 0.92 0.79 upregulate stage 425742 AJ001454 Hs.159425 testican 3 1 1 upregulate stage 425785 T27017 Hs.159528 Homo sapiens clone 24400 mRNA sequence 1 0.39 upregulate stage 425811 AL039104 Hs.159557 karyopherin alpha 2 (RAG cohort 1, impor 1.89 0.44 upregulate stage 425843 BE313280 Hs.159627 death associated protein 3 3.1 0.15 upregulate stage 425852 AK001504 Hs.159651 death receptor 6 1.72 0.47 upregulate stage 425883 AL137708 Hs.161031 Homo sapiens mRNA; cDNA DKFZp434K0322 (f 0.95 0.68 upregulate stage 426010 AA136563 Hs.1975 Homo sapiens cDNA: FLJ21007 fis, clone C 1 0.34 upregulate stage 426028 NM_001110 Hs.172028 a disintegrin and metalloproteinase doma 14.3 0.04 upregulate stage 426101 AL049987 Hs.166361 Homo sapiens mRNA; cDNA DKFZp564F112 (fr 11.75 0.05 upregulate stage 426108 AA622037 Hs.166468 programmed cell death 5 3.23 0.18 upregulate stage 426115 H08895 Hs.166733 leucyl/cystinyl aminopeptidase 1 0.32 upregulate stage 426168 NM_003152 Hs.167503 signal transducer and activator of trans 1.97 0.4 upregulate stage 426257 AL137201 Hs.168625 KIAA0979 protein 1 0.29 upregulate stage 426261 AW242243 Hs.168670 peroxisomal farnesylated protein 2.8 0.16 upregulate stage 426283 NM_003937 Hs.169139 kynureninase (L-kynurenine hydrolase) 14.75 0.04 upregulate stage 426451 AI908165 Hs.169946 GATA-binding protein 3 3.05 0.28 upregulate stage 426462 U59111 Hs.169993 dermatan sulphate proteoglycan 3 1 0.36 upregulate stage 426490 NM_001621 Hs.170087 aryl hydrocarbon receptor 14.17 0.05 upregulate stage 426514 BE616633 Hs.301122 bone morphogenetic protein 7 (osteogenic 1.15 0.47 upregulate stage 426561 AA381437 gb: EST94514 Activated T-cells I Homo sap 5.65 0.11 upregulate stage 426711 AA383471 Hs.180669 conserved gene amplified in osteosarcoma 11.05 0.05 upregulate stage 426731 AW303411 Hs.130332 ESTs 2.4 0.21 upregulate stage 426759 AI590401 Hs.21213 ESTs 9.5 0.06 upregulate stage 426786 AA319798 Hs.172247 eukaryotic translation elongation factor 9.25 0.09 upregulate stage 426788 U66615 Hs.172280 SWI/SNF related, matrix associated, acti 5.63 0.14 upregulate stage 426818 AA554827 Hs.124841 ESTs, Weakly similar to ALU5_HUMAN ALU S 9 0.08 upregulate stage 426824 D87717 Hs.172652 KIAA0013 gene product 1 0.87 upregulate stage 426827 AW067805 Hs.172665 methylenetetrahydrofolate dehydrogenase 8.95 0.09 upregulate stage 426921 AA037145 Hs.172865 cleavage stimulates factor, 3′ pre-RNA, 1 0.19 upregulate stage 426935 NM_000088 Hs.172928 collagen, type I, alpha 1 1.15 0.72 upregulate stage 426997 BE620738 Hs.173125 peptidylprolyl isomerase F (cyclophilin 11.06 0.06 upregulate stage 427071 AA397958 Hs.192719 ESTs 5.75 0.08 upregulate stage 427126 AA620613 Hs.191827 ESTs 2.55 0.18 upregulate stage 427134 AA398409 Hs.173561 EST 3.4 0.18 upregulate stage 427142 AA398510 Hs.133148 ESTs 1 0.25 upregulate stage 427259 AA400096 gb: zu69f07.s1 Soares_testis_NHT Home sap 1 0.22 upregulate stage 427308 D26067 Hs.174905 KIAA0033 protein 5.9 0.1 upregulate stage 427315 AA179949 Hs.175563 Home sapiens mRNA; cDNA DKFZp564N0763 (7 6.12 0.11 upregulate stage 427356 AW023482 Hs.97849 ESTs 2.7 0.13 upregulate stage 427370 AI243615 Hs.97740 ESTs 3.6 0.14 upregulate stage 427376 AA401533 Hs.19440 ESTs 2.1 0.16 upregulate stage 427387 BE244966 Hs.177584 3-oxoacid CoA transferase 1 0.39 upregulate stage 427470 AW999924 Hs.178357 Homo sapiens cDNA FLJ13657 fis, clone PL 3.4 0.16 upregulate stage 427519 AW085233 Hs.180696 ESTs 8.23 0.1 upregulate stage 427521 AW973352 Hs.299056 ESTs 7.75 0.1 upregulate stage 427528 AU077143 Hs.179565 minichromosome maintenance deficient (S. 5.7 0.15 upregulate stage 427566 AI743515 gb: wf72b08.x2 Soares_NFL_T_GBC_S1 Homo s 1 1 upregulate stage 427581 NM_014788 Hs.179703 KIAA0129 gene product 11.45 0.06 upregulate stage 427585 D31152 Hs.179729 collagen, type X, alpha 1 (Schmid metaph 3.25 0.16 upregulate stage 427603 AI090838 Hs.98006 ESTs 1 1 upregulate stage 427646 AI678042 Hs.271953 ESTs 5.7 0.11 upregulate stage 427652 AI673025 Hs.43874 ESTs 1 0.34 upregulate stage 427742 AA411880 Hs.190888 ESTs 2.4 0.16 upregulate stage 427814 W28383 Hs.180900 Williams-Beuren syndrome chromosome regi 9.13 0.08 upregulate stage 427839 AA608823 Hs.98244 ESTs 1.9 0.19 upregulate stage 427878 C05766 Hs.181022 CGI-07 protein 4.1 0.14 upregulate stage 427922 AK001934 Hs.181112 HSPC126 protein 2.6 0.19 upregulate stage 427933 AW974643 Hs.190571 ESTs 4.55 0.14 upregulate stage 427934 AA810541 Hs.291866 ESTs 1 1 upregulate stage 427944 AA417878 Hs.48401 ESTs, Weakly similar to ALU8_HUMAN ALU S 6.15 0.1 upregulate stage 427961 AW293165 Hs.143134 ESTs 4.85 0.11 upregulate stage 427986 N45214 Hs.282387 Homo sapiens cDNA: FLJ21837 fis, clone H 3.55 0.13 upregulate stage 428003 AL110200 Hs.181384 Homo sapiens mRNA; cDNA DKFZp586B0922 (f 1.45 0.36 upregulate stage 428004 AA449563 Hs.300270 ESTs 3.95 0.12 upregulate stage 428010 AA806554 Hs.185375 ESTs 1 0.38 upregulate stage 428057 AI343641 Hs.185798 ESTs 10.1 0.06 upregulate stage 428058 AI821625 Hs.191602 ESTs 1 0.5 upregulate stage 428071 AF212848 Hs.182339 ets homologous factor 6.4 0.09 upregulate stage 428182 BE386042 Hs.293317 ESTs, Weakly similar to JM27 [H. sapiens ] 1 0.23 upregulate stage 428192 AA424051 gb: zn80d03.s1 Soares_total_fetus_Nb2HF8_(—) 2.45 0.16 upregulate stage 428227 AA321649 Hs.2248 small inducible cytokine subfamily B (Cy 9.25 0.04 upregulate stage 428403 AI393048 Hs.239894 leucine rich repeat (in FLII) interactin 9.94 0.06 upregulate stage 428436 BE080180 gb: RC4-BT0629-120200-011-b10 BT0629 Homo 1 1 upregulate stage 428450 NM_014791 Hs.184339 KIAA0175 gene product 4.43 0.16 upregulate stage 428479 Y00272 Hs.184572 cell division cycle 2, G1 to S and G2 to 9.2 0.07 upregulate stage 428529 AW262022 Hs.106278 Homo sapiens cDNA FLJ12839 fis, clone NT 1 1 upregulate stage 428576 AW009330 Hs.167621 ESTs 1 0.3 upregulate stage 428605 AB037862 Hs.186756 KIAA1441 protein 9.25 0.09 upregulate stage 428664 AK001666 Hs.189095 similar to SALL1 (sal (Drosophila)-like 3.8 0.08 upregulate stage 428685 AF131853 Hs.189527 Homo sapiens clone 25016 mRNA sequence 1 1 upregulate stage 428716 AL122118 Hs.190614 Homo sapiens mRNA; cDNA DKFZp434O1221 (f 1 0.65 upregulate stage 428783 AW070204 Hs.178176 ESTs 1.6 0.23 upregulate stage 428788 AF082283 Hs.193516 B-cell CLL/lymphoma 10 9.6 0.08 upregulate stage 428829 R14050 Hs.194051 Homo sapiens mRNA; cDNA DKFZp566B213 (fr 5.45 0.11 upregulate stage 428839 AI767756 Hs.82302 ESTs 10 0.06 upregulate stage 428881 AI298368 Hs.98918 ESTs 1.4 0.18 upregulate stage 428954 AF100781 Hs.194678 WNT1 inducible signaling pathway protein 1 1 upregulate stage 428988 AA442900 Hs.27947 ESTs 3.05 0.13 upregulate stage 429042 AW015489 Hs.235920 ESTs 1 0.56 upregulate stage 429057 AF156557 Hs.194816 stomatin-like protein 1 0.95 0.93 upregulate stage 429066 AA868555 Hs.178222 ESTs 6 0.11 upregulate stage 429072 AI376228 Hs.108043 Friend leukemia virus integration 1 1 1 upregulate stage 429083 Y09397 Hs.227817 BCL2-related protein A1 11.12 0.03 upregulate stage 429091 AA935658 Hs.187939 ESTs 8.9 0.08 upregulate stage 429115 AA446728 Hs.289020 Homo sapiens cDNA FLJ14098 fis, clone MA 4.1 0.17 upregulate stage 429127 AA749382 Hs.107233 ESTs 1 0.23 upregulate stage 429135 AA446966 Hs.99090 ESTs, Moderately similar to similar to K 1 1 upregulate stage 429170 NM_001394 Hs.2359 dual specificity phosphatase 4 8.6 0.08 upregulate stage 429174 BE559598 Hs.197803 KIAA0160 protein 8.4 0.06 upregulate stage 429236 AA448407 gb: zw68d11.s1 Soares_testis_NHT Homo sap 1 0.36 upregulate stage 429268 AA205386 Hs.198481 RAR-related orphan receptor B 2.9 0.16 upregulate stage 429300 AB011108 Hs.198891 serine/threonine-protein kinase PRP4 hom 4.25 0.15 upregulate stage 429334 D63078 Hs.186180 Homo sapiens cDNA: FLJ23038 fis, clone L 2.95 0.11 upregulate stage 429344 R94038 Hs.199538 inhibin, beta C 2.91 0.28 upregulate stage 429359 W00482 Hs.2399 matris metalloproteinase 14 (membrane-in 1.19 0.68 upregulate stage 429376 AI867889 Hs.43227 ESTs 1 1 upregulate stage 429412 NM_006235 Hs.2407 POU domain, class 2, associating factor 8.15 0.07 upregulate stage 429450 AA824451 Hs.94292 Homo sapiens cDNA: FLJ23311 fis, clone H 3.3 0.17 upregulate stage 429472 AW452421 Hs.15652 ESTs 1 1 upregulate stage 429482 AF076974 Hs.203952 transformation/transcripton domain-asso 1.52 0.59 upregulate stage 429486 AF155827 Hs.203963 hypothetical protein FLJ10339 2.9 0.15 upregulate stage 429572 AW295375 Hs.39474 ESTs 1 0.95 upregulate stage 429584 AI817785 Hs.183037 protein kinase, cAMP-dependent, regulato 6.55 0.1 upregulate stage 429590 AI219490 Hs.44445 ESTs, Weakly similar to Kelch motif cont 1 1 upregulate stage 429597 NM_003816 Hs.2442 a disintegrin and metalloproteinase doma 5.6 0.14 upregulate stage 429601 AI804293 Hs.119406 ESTs, Weakly similar to AF143946 1 trans 1.36 0.58 upregulate stage 429602 AA521463 Hs.183424 ESTs 1 0.34 upregulate stage 429617 X89984 Hs.211563 B-cell CLL/lymphoma 7A 10.8 0.07 upregulate stage 429629 BE501732 Hs.30622 Homo sapiens cDNA FLJ13010 fis, clone NT 3.4 0.12 upregulate stage 429631 AA455612 Hs.136710 EST 1 1 upregulate stage 429644 AA455892 Hs.156379 ESTs 3.4 0.15 upregulate stage 429653 NM_005955 Hs.211581 metal-regulatory transcription factor 1 4.45 0.17 upregulate stage 429664 L20433 Hs.211588 POU domain, class 4, transcription facto 1.17 0.74 upregulate stage 429673 AA884407 Hs.211595 protein tyrosine phosphatase, non-recept 3.19 0.22 upregulate stage 429699 AI383469 Hs.159300 ESTs 4.4 0.1 upregulate stage 429782 NM_005754 Hs.220689 Ras-GTPase-activating protein SH3-domain 4.25 0.13 upregulate stage 429813 AW139678 Hs.180791 ESTs 1 0.95 upregulate stage 429828 AB019494 Hs.225767 IDN3 protein 4.2 0.14 upregulate stage 429838 AW904907 Hs.108241 ESTs, Weakly similar to The KIAA0191 gen 3.25 0.14 upregulate stage 429859 NM_007050 Hs.225952 protein tyrosine phosphatase, receptor t 1 0.36 upregulate stage 429913 AA460608 Hs.99552 ESTs 1.35 0.2 upregulate stage 429917 H80572 gb: yu76c02.r1 Soaren fetal liver spleen 4.8 0.13 upregulate stage 429921 AA526911 Hs.102756 ESTs 1 0.63 upregulate stage 429950 AW081608 Hs.105053 ESTs 3.7 0.13 upregulate stage 429971 AF079550 Hs.227098 glial cells missing (Drosophila) homolog 1 0.83 upregulate stage 429979 AA463338 gb: zx97a10.r1 Soares_NhHMPu_S1 Homo sapi 1 0.32 upregulate stage 429982 AW449534 Hs.99607 Homo sapiens cDNA FLJ13841 fis, clone TH 9.45 0.08 upregulate stage 429986 AF092047 Hs.227277 sine oculis homeobox (Drosophila) homolo 0.78 0.58 upregulate stage 430020 AI539029 Hs.99607 Homo sapiens cDNA FLJ13841 fis, clone TH 1 0.36 upregulate stage 430021 AA463913 Hs.221160 ESTs 1 0.56 upregulate stage 430049 AW277085 Hs.99619 ESTs 3.55 0.17 upregulate stage 430060 NM_002941 Hs.301198 roundabout (axon guidance receptor, Dros 1 0.59 upregulate stage 430076 AA465115 gb: aa32c11.r1 NCI_CGAP_GCB1 Homo sapiens 5.4 0.12 upregulate stage 430134 BE380149 Hs.105223 ESTs, Weakly similar to contains similar 3.6 0.13 upregulate stage 430184 AB013802 Hs.234790 contactin 5 1 1 upregulate stage 430195 AW969308 Hs.188594 ESTs 9.15 0.1 upregulate stage 430279 R85974 Hs.16279 ESTs 1.2 0.52 upregulate stage 430287 AW182459 Hs.125759 ESTs, Weakly similar to tumor suppressor 4.05 0.15 upregulate stage 430291 AV660345 Hs.238126 CGI-49 protein 7.2 0.08 upregulate stage 430299 W28673 Hs.106747 serine carboxypeptidase 1 precursor prot 11.9 0.06 upregulate stage 430350 BE169639 gb: PM1-HT0527-280200-005-a05 HT0527 Homo 7.1 0.09 upregulate stage 430387 AW372884 Hs.240770 nuclear cap binding protein subunit 2, 2 5.9 0.11 upregulate stage 430486 BE062109 Hs.241551 chloride channel, calcium activated, fam 2.56 0.2 upregulate stage 430488 D19589 Hs.4220 ESTs, Moderately similar to tetracycline 10.5 0.08 upregulate stage 430512 AF182294 Hs.241578 U6 snRNA-associated Sm-like protein LSm8 11.2 0.06 upregulate stage 430519 AF129534 Hs.49210 F-box only protein 4 5.35 0.11 upregulate stage 430550 AK000062 Hs.243756 hypothetical protein FLJ20055 1 1 upregulate stage 430561 BE065227 gb: RC1-BT0314-310300-015-b06 BT0314 Homo 1 1 upregulate stage 430563 AA481269 Hs.178381 ESTs 1 0.45 upregulate stage 430598 AK001764 Hs.247112 hypothetical protein FLJ10902 4.75 0.14 upregulate stage 430630 AW269920 Hs.2621 cystatin A (stefin A) 2.52 0.25 upregulate stage 430634 AI860651 Hs.26685 ESTs 1.24 0.61 upregulate stage 430637 BE160081 Hs.256290 S100 calciam-binding protein A11 (calgiz 1.79 0.47 upregulate stage 430640 AA482636 gb: zv29c06.r1 Soares ovary tumor NbHOT H 9.15 0.08 upregulate stage 430665 BE350122 Hs.157367 ESTs 9.4 0.08 upregulate stage 430726 AL031224 Hs.247850 Human DNA sequence from clone 336H9 on c 1 0.27 upregulate stage 430733 AW975920 Hs.283361 ESTs 3.5 0.13 upregulate stage 430781 AW088127 Hs.278536 ESTs 1 1 upregulate stage 430791 AA486293 Hs.272068 ESTs, Moderately similar to alternativel 1.61 0.42 upregulate stage 430817 AA487242 Hs.185105 ESTs 1 1 upregulate stage 430888 BE155293 Hs.76064 ribosomal protein L27a 3.05 0.17 upregulate stage 430918 NM_000843 Hs.248131 glutamate receptor, metabotropic 6 9.05 0.09 upregulate stage 430926 L05597 Hs.248136 5-hydroxytryptamine (serotonin) receptor 1 0.91 upregulate stage 430994 AA490346 Hs.40530 ESTs 1.03 0.89 upregulate stage 431009 BE149762 Hs.248213 gap junction protein, beta 6 (connexin 3 24.8 0.03 upregulate stage 431023 AI283133 Hs.178925 ESTs 2.55 0.15 upregulate stage 431030 AA830525 Hs.291988 ESTs 1 0.47 upregulate stage 431041 AA490967 Hs.105276 ESTs 1 0.36 upregulate stage 431070 AW408164 Hs.249184 transcription factor 19 (SC1) 1.65 0.45 upregulate stage 431082 AA491600 Hs.161942 ESTs 9.85 0.06 upregulate stage 431089 BE041395 Hs.283676 ESTs, Weakly similar to unknown protein 43.15 0.01 upregulate stage 431146 Z83850 Hs.250649 Human DNA sequence from PAC 82J11 and co 1 0.4 upregulate stage 431173 AW971198 Hs.294068 ESTs 6.3 0.12 upregulate stage 431245 AA496933 Hs.191687 ESTs 1 1 upregulate stage 431253 R06428 Hs.226351 ESTs 1 0.8 upregulate stage 431267 AW969661 Hs.124047 ESTs 1 0.31 upregulate stage 431287 BE044989 Hs.274901 ESTs 1 1 upregulate stage 431322 AW970622 gb: EST382704 MAGE resequences, MAGK Homo 10.8 0.06 upregulate stage 431332 AA503297 Hs.117108 ESTs 6.55 0.1 upregulate stage 431343 AW970603 Hs.300941 Homo sapiens cDNA FLJ11661 fis, clone HE 5.65 0.09 upregulate stage 431346 AA371059 Hs.251636 ubiquitin specific protease 3 1.68 0.52 upregulate stage 431347 AI133461 Hs.251664 insulin-like growth factor 2 (somatomedi 1.12 0.47 upregulate stage 431381 AA577114 Hs.105727 ESTs 1 0.36 upregulate stage 431448 AL137517 Hs.288381 hypothetical protein DKFZp564O1278 3.72 0.13 upregulate stage 431494 AA991355 Hs.129808 ESTs 2.75 0.18 upregulate stage 431510 AA580082 Hs.112264 ESTs 3.75 0.13 upregulate stage 431560 BE244135 Hs.260238 hypothetical protein FLJ10842 9.1 0.08 upregulate stage 431571 AW500486 Hs.180610 splicing factor proline/glutamine rich ( 7.5 0.11 upregulate stage 431596 T34708 Hs.272927 Sec23 (S. cerivisiae) homolog A 8.2 0.08 upregulate stage 431610 AK000972 Hs.264363 hypothetical protein FLJ10110 6.4 0.1 upregulate stage 431613 AA018515 Hs.264482 Apg12 (autophagy 12, S. cerivisiae)-like 5.8 0.11 upregulate stage 431630 NM_002204 Hs.265829 integrin, alpha 3 (antigen CD49C, alpha 1.3 0.59 upregulate stage 431663 NM_016569 Hs.267182 TBX3-iso protein 1.6 0.52 upregulate stage 431670 AW971287 gb: EST383376 MAGE resequences, MAGL Homo 1 1 upregulate stage 431689 AA305688 Hs.267695 UDP-Gal: betaGlcNAc beta 1,3-galactosyltr 9.1 0.05 upregulate stage 431691 AI208511 Hs.292510 ESTs 4.15 0.12 upregulate stage 431692 AL021331 Hs.267749 unc93 (C. elegans) homolog A 4.2 0.13 upregulate stage 431694 AW970112 Hs.292697 ESTs 1 0.83 upregulate stage 431726 NM_015361 Hs.268053 KIAA0029 protein 10.1 0.07 upregulate stage 431736 AI912234 Hs.151245 ESTs 9.9 0.08 upregulate stage 431753 X76029 Hs.2841 neuromedin U 1 0.23 upregulate stage 431781 AA515474 Hs.99908 nuclear receptor coactivator 4 1 0.36 upregulate stage 431810 X67155 Hs.270845 kinesin-like 5 (mitotic kinesin-like pro 1 0.65 upregulate stage 431814 BE256242 Hs.270847 delta-tubulin 3.35 0.18 upregulate stage 431817 X65233 Hs.271079 zinc finger protein 80 (pT17) 1 1 upregulate stage 431828 AA572994 gb: nm33f12.s1 NCI_CGAP_Lip2 Homo sapiens 4 0.12 upregulate stage 431880 AI700238 Hs.187486 ESTs 1 1 upregulate stage 431890 X17033 Hs.271986 integrin, alpha 2 (CD49B, alpha 2 subuni 2.89 0.27 upregulate stage 431941 AK000106 Hs.272227 Homo sapiens cDNA FLJ20099 fis, clone CO 1 0.18 upregulate stage 431951 AI086335 Hs.136470 ESTs 6.4 0.11 upregulate stage 431958 X63629 Hs.2877 cadherin 3, type 1, P-cadherin (placenta 9.09 0.07 upregulate stage 431989 AW972870 Hs.291069 ESTs 1 0.23 upregulate stage 431992 NM_002742 Hs.2891 protein kinase C, mu 3.9 0.15 upregulate stage 432015 AL157504 Hs.159115 ESTs 6.05 0.09 upregulate stage 432023 AW273128 Hs.214188 ESTs 0.99 0.86 upregulate stage 432028 AJ272208 Hs.272354 interleukin 1 receptor accessory protein 1 0.48 upregulate stage 432039 AF220217 Hs.272374 Homo sapiens rsec15-like protein mRNA, p 1 0.24 upregulate stage 432065 AA401039 Hs.2903 protein phosphatase 4 (formerly X), cata 1.38 0.64 upregulate stage 432069 AW975868 Hs.294100 ESTs 4.25 0.15 upregulate stage 432072 N62937 Hs.269109 ESTs 5.9 0.09 upregulate stage 432093 H28383 gb: yl52c03.r1 Soares breast 3NbHBst Homo 7.9 0.08 upregulate stage 432136 AA157632 Hs.272630 vacuolar proton pump delta polypeptide 1 0.28 upregulate stage 432162 AA584062 Hs.272798 hypothetical protein FLJ20413 2.5 0.25 upregulate stage 432169 Y00971 Hs.2910 phosphoribosyl pyrophosphate synthetase 6.1 0.11 upregulate stage 432215 AU076609 Hs.2934 ribonucleotide reductase M1 polypeptide 2.44 0.29 upregulate stage 432222 AI204995 gb: an03c03.x1 Stratagene schizo brain S1 15 0.02 upregulate stage 432235 AA531129 Hs.190297 ESTs 9.57 0.06 upregulate stage 432237 AK001926 Hs.274132 hypothetical protein FLJ11064 1 0.44 upregulate stage 432239 X81334 Hs.2936 matrix metalloproteinase 13 (collagenase 4.3 0.1 upregulate stage 432281 AK001239 Hs.274263 hypothetical protein FLJ10377 3.95 0.15 upregulate stage 432338 AA534197 Hs.272693 ESTs 1 1 upregulate stage 432374 W68815 Hs.301885 Homo sapiens cDNA FLJ11346 fis, clone PL 1.97 0.4 upregulate stage 432375 BE536069 Hs.2962 S100 calcium-binding protein P 1.16 0.58 upregulate stage 432407 AA221036 Hs.285026 HERV-H LTR-associating 1 3.75 0.16 upregulate stage 432410 X68561 Hs.2982 Sp4 transcription factor 1 1 upregulate stage 432415 T16971 Hs.289014 ESTs 7.3 0.07 upregulate stage 432432 AA541323 Hs.115831 ESTs 5.35 0.13 upregulate stage 432435 BE218886 Hs.282070 ESTs 5.35 0.1 upregulate stage 432441 AW292425 Hs.163484 ESTs 19.4 0.04 upregulate stage 432518 AI675836 Hs.94319 ESTs 1 0.59 upregulate stage 432580 X82018 Hs.3053 zinc finger protein with interaction dom 9.15 0.08 upregulate stage 432606 NM_002104 Hs.3066 granzyme K (serine protease, granzyme 3: 10.15 0.05 upregulate stage 432614 AA557153 Hs.185853 ESTs 1 0.33 upregulate stage 432642 BE297635 Hs.3069 heat shock 70 kD protein 98 (mortalin-2) 10.5 0.07 upregulate stage 432661 AW973823 Hs.283526 ESTs 1 1 upregulate stage 432666 AW204069 Hs.129250 ESTs, Weakly similar to unnamed protein 1 0.16 upregulate stage 432669 AL043482 Hs.267115 ESTs 4.15 0.12 upregulate stage 432673 AB028859 Hs.278605 ER-associated DNAJ; ER-associated Hsp40 10.24 0.06 upregulate stage 432678 AA923424 Hs.135567 ESTs 1 0.69 upregulate stage 432690 AF181490 Hs.278627 prenylcysteine lyase 4.55 0.12 upregulate stage 432724 X98266 gb: H. sapiens mRNA for ligase like protei 1 1 upregulate stage 432758 NM_014091 Hs.278920 PRO1510 protein 1 1 upregulate stage 432773 NM_014124 Hs.278935 PRO0255 protein 1 1 upregulate stage 432789 D26361 Hs.3104 KIAA0042 gene product 3.46 0.22 upregulate stage 432829 W60377 Hs.57772 ESTs 1.33 0.43 upregulate stage 432840 AK001403 Hs.279521 hypothetical protein FLJ20530 4.5 0.14 upregulate stage 432900 BE178025 Hs.7942 hypothetical protein FLJ20080 1 0.3 upregulate stage 432917 NM_014125 Hs.279812 PRO0327 protein 6.33 0.12 upregulate stage 432935 AW270239 Hs.213709 ESTs 3.85 0.11 upregulate stage 432963 AA572859 Hs.225791 ESTs 1 0.19 upregulate stage 433001 AF217513 Hs.279905 clone HQ0310 PRO0310p1 29.9 0.03 upregulate stage 433005 AW939074 gb: QV1-DT0069-010200-057-c12 DT0069 Homo 1 0.59 upregulate stage 433129 AA577814 gb: nn24d03.s1 NCI_CGAP_Gas1 Homo sapiens 1 1 upregulate stage 433159 AB035898 Hs.150587 kinesin-like protein 2 6 0.1 upregulate stage 433201 AB040896 Hs.21104 KIAA1463 protein 9.2 0.09 upregulate stage 433211 H11850 Hs.12808 MARK 1.6 0.45 upregulate stage 433218 AI040372 Hs.278894 KIAA1482 protein 1 0.44 upregulate stage 433222 AW514472 Hs.238415 ESTs, Moderately similar to ALU8_HUMAN A 5.45 0.12 upregulate stage 433230 AW136134 Hs.220277 ESTs 7.3 0.09 upregulate stage 433237 AB040930 Hs.297021 Homo sapiens cDNA FLJ13211 fis, clone NT 1 1 upregulate stage 433365 AF026944 Hs.293797 ESTs 4.95 0.08 upregulate stage 433371 T25451 gb: PTHI188 HTCDL1 Homo sapiens cDNA 5′/3 4.75 0.12 upregulate stage 433394 AI907753 Hs.93810 cerebral cavernous malformations 1 4.5 0.11 upregulate stage 433424 R68252 Hs.163566 ESTs 1 1 upregulate stage 433440 AF052127 gb: Homo sapiens clone 23850 mRNA sequenc 1 1 upregulate stage 433452 AW296906 Hs.142869 ESTs 9.82 0.08 upregulate stage 433456 AA593447 Hs.124296 ESTs 9.45 0.08 upregulate stage 433467 AI420457 Hs.50955 ESTs 1.11 0.74 upregulate stage 433479 AW511459 Hs.249972 ESTs 3.35 0.13 upregulate stage 433484 BE264397 Hs.148674 ESTs 1 0.27 upregulate stage 433515 AA595800 Hs.190246 ESTs 3.05 0.14 upregulate stage 433602 AI769948 Hs.24906 ESTs 1 1 upregulate stage 433613 AA836126 Hs.5669 ESTs 2.8 0.12 upregulate stage 433625 AW955674 Hs.161762 ESTs 1 0.53 upregulate stage 433658 L03678 Hs.156110 immunoglobulin kappa constant 9.65 0.05 upregulate stage 433672 BE281165 Hs.288038 TLS-associated serine-arginine protein 1 7.9 0.08 upregulate stage 433730 AK002135 Hs.3542 hypothetical protein FLJ11273 6.7 0.11 upregulate stage 433735 AA608955 Hs.109653 ESTs 8.95 0.08 upregulate stage 433895 AI287912 Hs.3628 mitogen-activated protein kinase kinase 4.43 0.16 upregulate stage 433904 AI399956 Hs.208956 ESTs 5.5 0.12 upregulate stage 433929 AI375499 Hs.27379 ESTs 7 0.09 upregulate stage 433966 AF113017 Hs.284301 PRO1268 protein 7.95 0.08 upregulate stage 433967 AF113018 Hs.284302 PRO1621 protein 2.65 0.1 upregulate stage 434006 AF113688 gb: Homo sapiens clone FLB4630 7.85 0.08 upregulate stage 434037 AF116601 Hs.283048 hypothetical protein PRO0128 8.81 0.09 upregulate stage 434064 AL049045 Hs.180758 hypothetical protein PRO0082 8.35 0.09 upregulate stage 434085 AF116673 Hs.250029 hypothetical protein PRO1925 1 1 upregulate stage 434092 AA625155 gb: at70d06.r1 Soares_NhHMPu_S1 Homo sapi 1 1 upregulate stage 434094 AA305599 Hs.238205 hypothetical protein PRO2013 11.5 0.06 upregulate stage 434138 AA625804 gb: zu86h01.s1 Soares_testis_NHT Homo sap 3.55 0.11 upregulate stage 434192 AW387314 Hs.34371 ESTs 1.65 0.22 upregulate stage 434194 AF119847 Hs.283940 Homo sapiens PRO1550 mRNA, partial cds 7.85 0.09 upregulate stage 434217 AW014795 Hs.23349 ESTs 3.8 0.13 upregulate stage 434228 Z42047 Hs.283978 Homo sapiens PRO2751 mRNA, complete cds 5.95 0.11 upregulate stage 434271 AA897778 Hs.201677 ESTs 1 0.38 upregulate stage 434280 BE005398 gb: CM1-BN0116-150400-189-h02 BN0116 Homo 9.45 0.07 upregulate stage 434322 AI125886 Hs.152727 ESTs 2.65 0.18 upregulate stage 434351 AW974991 Hs.191852 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 0.61 upregulate stage 434354 AW974912 Hs.292783 ESTs 1 1 upregulate stage 434398 AA121098 Hs.3838 serum-inducible kinase 10.7 0.08 upregulate stage 434464 BE063921 Hs.295971 ESTs 10.15 0.07 upregulate stage 434466 AB037829 Hs.3862 regulator of nonsense transcripts 2; DKF 7.6 0.09 upregulate stage 434484 W79839 Hs.104336 hypothetical protein 5.1 0.15 upregulate stage 434513 AF143888 Hs.18213 Homo sapiens clone IMAGE: 121736 mRNA seq 1 1 upregulate stage 434534 H90477 Hs.41407 ESTs 1 0.18 upregulate stage 434540 NM_016045 Hs.5184 TH1 drosophila homolog 12.4 0.06 upregulate stage 434569 AI311295 Hs.58609 ESTs 1.75 0.38 upregulate stage 434575 AI133446 Hs.29964 ESTs 9.7 0.06 upregulate stage 434627 AI221894 Hs.39311 ESTs 1.65 0.17 upregulate stage 434629 AA789081 Hs.4029 glioma-amplified sequence-41 9 0.07 upregulate stage 434663 AA641972 Hs.130058 ESTs 4.55 0.15 upregulate stage 434731 AA648049 Hs.121518 ESTs 8.5 0.1 upregulate stage 434765 AA831115 Hs.190473 ESTs 1 0.71 upregulate stage 434773 AA648962 Hs.152947 ESTs 10.55 0.08 upregulate stage 434792 AA649253 Hs.132458 ESTs 5.45 0.11 upregulate stage 434828 D90070 Hs.96 phorbol-12-myristate-13-acetate-induced 1 0.34 upregulate stage 434876 AF160477 Hs.245781 Homo sapiens lg superfamily receptor LNI 1.4 0.57 upregulate stage 434909 AI479212 Hs.17283 hypothetical protein FLJ10890 1 0.91 upregulate stage 434926 BE543269 Hs.50252 Homo sapiens HSPC283 mRNA, partial cds 4.9 0.13 upregulate stage 434939 AF161422 Hs.21590 Homo sapiens HSPC304 mRNA, partial cds 1 1 upregulate stage 434963 AW974957 Hs.288719 Homo sapiens cDNA FLJ12142 fis, clone MA 10.75 0.07 upregulate stage 434970 AW272262 Hs.250468 ESTs 9.05 0.08 upregulate stage 434980 AW770553 Hs.293640 ESTs 4.95 0.14 upregulate stage 434997 AW975155 Hs.292163 ESTs 1 0.36 upregulate stage 435013 H91923 Hs.110024 NADH: ubiquinone oxidoreductase MLRQ subu 1.16 0.71 upregulate stage 435030 AI203316 Hs.148655 ESTs, Weakly similar to ALU1_HUMAN ALU S 2.95 0.14 upregulate stage 435047 AA454985 Hs.54973 cadherin-like protein VR20 3.31 0.2 upregulate stage 435061 AI651474 Hs.163944 ESTs 1.4 0.2 upregulate stage 435080 AI831760 Hs.155111 ESTs 9.05 0.08 upregulate stage 435087 AW975241 Hs.23567 ESTs 1 1 upregulate stage 435108 AW975018 Hs.287440 Homo sapiens cDNA FLJ11692 fis, clone HE 1 0.2 upregulate stage 435136 R27299 Hs.10172 ESTs 8.9 0.07 upregulate stage 435159 AA668879 Hs.116649 ESTs 1.35 0.25 upregulate stage 435162 AI911044 Hs.213893 ESTs 1 1 upregulate stage 435166 AI391470 Hs.158618 ESTs 5.5 0.12 upregulate stage 435212 AW300100 Hs.164185 ESTs 1 1 upregulate stage 435237 AI026836 Hs.114689 ESTs 8.75 0.1 upregulate stage 435255 W87434 Hs.106015 ESTs, Moderately similar to ALU1_HUMAN A 3.4 0.14 upregulate stage 435256 AF193766 Hs.13872 cytokine-like protein C17 3.2 0.14 upregulate stage 435257 AA677026 Hs.191217 ESTs 4.5 0.12 upregulate stage 435298 AA677696 Hs.189196 ESTs 1 1 upregulate stage 435307 W90610 Hs.192003 ESTs 1 0.87 upregulate stage 435347 AW014873 Hs.116963 ESTs 2.45 0.14 upregulate stage 435382 N54493 gb: yv40g05.s1 Soares fetal liver spleen 1 0.56 upregulate stage 435408 H07897 Hs.4302 ESTs 0.84 0.97 upregulate stage 435491 T98543 Hs.191900 ESTs 1 0.3 upregulate stage 435525 AI831297 Hs.123310 ESTs 3.25 0.15 upregulate stage 435597 AW305188 Hs.163027 ESTs 1 0.57 upregulate stage 435637 AF220051 Hs.110853 uncharacterized hematopoietic stem/proge 8.76 0.09 upregulate stage 435647 AI653240 Hs.49823 ESTs 3.19 0.25 upregulate stage 435738 AA699633 Hs.269543 ESTs 2.9 0.16 upregulate stage 435762 AW043836 Hs.212460 ESTs 1 1 upregulate stage 435809 H90213 Hs.191330 ESTs 1.25 0.23 upregulate stage 435826 AI554089 Hs.117880 ESTs 6.55 0.08 upregulate stage 435854 AJ278120 Hs.4996 DKFZP564D166 protein 2.76 0.29 upregulate stage 435979 W03698 Hs.83513 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 0.25 upregulate stage 435981 H74319 Hs.188620 ESTs 6.35 0.11 upregulate stage 435990 AI015862 Hs.131793 ESTs 4.25 0.08 upregulate stage 435999 AA703271 Hs.269903 ESTs, Moderately similar to ALU1_HUMAN A 1 1 upregulate stage 436016 AA806465 Hs.121536 ESTs 1.45 0.23 upregulate stage 436023 T81819 gb: yd95f05.s1 Soares fetal liver spleen 9.15 0.07 upregulate stage 436052 AI021983 Hs.271432 ESTs 1 0.23 upregulate stage 436115 AW512033 Hs.102004 ESTs 1.9 0.21 upregulate stage 436118 AI221173 Hs.145080 ESTs 1 1 upregulate stage 436120 AI248193 Hs.119860 ESTs 9.61 0.08 upregulate stage 436149 AI754308 Hs.159452 ESTs 2.4 0.19 upregulate stage 436156 AA705466 Hs.119900 ESTs 1 0.26 upregulate stage 436170 AW450381 Hs.14529 ESTs 1 0.91 upregulate stage 436202 AA706315 Hs.192057 ESTs 1 1 upregulate stage 436246 AW450963 Hs.119991 ESTs 3.85 0.11 upregulate stage 436274 AA732755 Hs.120299 ESTs 2.85 0.13 upregulate stage 436282 R91913 Hs.272104 ESTs 3.95 0.11 upregulate stage 436299 AK000767 Hs.5111 hypothetical protein FLJ20729 6 0.09 upregulate stage 436300 AA831601 Hs.275736 ESTs 1 1 upregulate stage 436326 BE085236 Hs.181244 major histocompatibility complex, class 2.49 0.28 upregulate stage 436360 AI962796 Hs.136754 ESTs 2.4 0.17 upregulate stage 436363 AA843926 Hs.124434 ESTs 3.35 0.1 upregulate stage 436383 BE065178 gb: RC1-BT0314-020200-012-h01 BT0314 Homo 1 0.67 upregulate stage 436396 AI683487 Hs.299112 Homo sapiens cDNA FLJ11441 fis, clone HE 4 0.15 upregulate stage 436408 AW274577 Hs.252954 ESTs 9.1 0.09 upregulate stage 436422 AA716141 Hs.147027 ESTs 1 0.26 upregulate stage 436429 AA357003 Hs.17546 hypothetical protein FLJ23499 1 1 upregulate stage 436463 H06502 Hs.6656 ESTs 5.45 0.12 upregulate stage 436476 AA326108 Hs.53631 ESTs, Weakly similar to enhancer-of-spli 7.75 0.07 upregulate stage 436507 AA721209 Hs.201630 ESTs 2.45 0.18 upregulate stage 436518 AA766433 Hs.122864 ESTs 3.15 0.21 upregulate stage 436522 AA721381 Hs.129876 ESTs 4.75 0.1 upregulate stage 436578 AI091435 Hs.134859 ESTs 3.4 0.12 upregulate stage 436670 AI690021 Hs.201536 ESTs 6.85 0.11 upregulate stage 436740 AW975133 gb: EST387239 MAGE resequences, MAGH Homo 7.4 0.09 upregulate stage 436764 AW976004 Hs.291731 ESTs 1 1 upregulate stage 436785 AA745597 Hs.291400 ESTs 1 1 upregulate stage 436823 AW749865 Hs.293645 ESTs 4.6 0.12 upregulate stage 436831 AA830173 Hs.291918 ESTs 1.6 0.27 upregulate stage 436839 AA767346 Hs.291614 ESTs 1 1 upregulate stage 436844 AA766458 Hs.122812 ESTs 1.5 0.28 upregulate stage 436853 BE328074 Hs.148661 ESTs 5.05 0.14 upregulate stage 436860 H12751 Hs.5327 PRO1914 protein 8.95 0.08 upregulate stage 436925 AA742327 Hs.292687 ESTs 1 1 upregulate stage 437044 AL035864 Hs.69517 ESTs, Highly similar to differentially e 1.61 0.5 upregulate stage 437087 AA745563 gb: ny60e04.s1 NCI_CGAP_Pr18 Homo sapiens 1 1 upregulate stage 437144 AL049466 Hs.7859 ESTs 1 0.31 upregulate stage 437170 R49202 Hs.181694 ESTs 8.7 0.08 upregulate stage 437181 AI306615 Hs.125343 ESTs, Weakly similar to KIAA0758 protein 4.4 0.05 upregulate stage 437207 T27503 Hs.15929 Homo sapiens cDNA FLJ12910 fis, clone NT 1.4 0.22 upregulate stage 437214 BE092336 gb: IL2-BT0734-240400-072-A12 BT0734 Homo 5.65 0.09 upregulate stage 437240 AA747537 gb: nx85c05.s1 NCI_CGAP_GCB1 Homo sapiens 1 0.45 upregulate stage 437257 AI283085 Hs.290931 ESTs, Weakly similar to unknown [S. cerev 3.8 0.14 upregulate stage 437258 AL041243 Hs.174104 ESTs 9.72 0.08 upregulate stage 437267 AW511443 Hs.258110 ESTs 4.25 0.12 upregulate stage 437274 AA747965 gb: nx79a10.s1 NCI_CGAP_Ew1 Homo sapiens 1 0.19 upregulate stage 437288 AA748182 Hs.160377 ESTs 1 0.61 upregulate stage 437311 AA370041 Hs.9456 SWI/SNF related, matrix associated, acti 3.1 0.17 upregulate stage 437324 AL162077 gb: Homo sapiens mRNA; cDNA DKFZp761A219 1 0.25 upregulate stage 437330 AL353944 Hs.50115 Homo sapiens mRNA; cDNA DKFZp761J1112 (f 7.95 0.07 upregulate stage 437356 BE622396 Hs.284252 Homo sapiens mRNA; cDNA DKFZp762O1615 (f 1 1 upregulate stage 437438 AL359620 Hs.14217 hypothetical protein DKPZp762P2111 9.15 0.09 upregulate stage 437471 AL390169 gb: Homo sapiens mRNA; cDNA DKFZp547D064 1 1 upregulate stage 437553 AI829935 Hs.130497 ESTs, Weakly similar to MAT8_HUMAN CHLOR 1.1 0.56 upregulate stage 437567 AW627990 Hs.288954 Homo sapiens cDNA: FLJ21466 fis, clone C 1 1 upregulate stage 437575 AW954355 Hs.36529 ESTs 10.25 0.06 upregulate stage 437717 AA804765 Hs.132853 ESTs 1 0.77 upregulate stage 437722 AW292947 Hs.122872 ESTs 9.75 0.05 upregulate stage 437752 AA767376 Hs.291631 ESTs 6.7 0.08 upregulate stage 437770 AA767881 Hs.122897 ESTs 2.57 0.24 upregulate stage 437798 AW811767 gb: RC2-ST0165-300999-011-g02 ST0165 Homo 1 1 upregulate stage 437799 R51083 Hs.90787 ESTs 1 1 upregulate stage 437852 BE001836 Hs.256897 ESTs, Weakly similar to dJ365O12.1 [H. sa 1.77 0.3 upregulate stage 437886 BE264111 Hs.31314 retinoblastoma-binding protein 7 8.8 0.08 upregulate stage 437887 AA811524 Hs.29263 Homo sapiens cDNA FLJ11896 fis, clone HE 3.8 0.17 upregulate stage 437889 AA830524 Hs.124357 ESTs 1 0.69 upregulate stage 437937 AI917222 Hs.121655 ESTs 1 0.38 upregulate stage 437938 AI950087 gb: wq05c02.x1 NCI_CGAP_Kid12 Homo sapien 1.37 0.52 upregulate stage 437983 AI303023 Hs.30211 hypothetical protein FLJ22313 8.82 0.08 upregulate stage 438011 BE466173 Hs.145696 splicing factor (CC1.3) 9 0.09 upregulate stage 438032 BE045624 Hs.152992 ESTs 5.65 0.13 upregulate stage 438069 N80701 Hs.33790 ESTs 3.25 0.13 upregulate stage 438077 AA777330 Hs.50429 ESTs 1 1 upregulate stage 438081 H49546 Hs.298964 ESTs 3.75 0.11 upregulate stage 438102 AA777793 Hs.137580 xylulokinase (H. inflsunzae) homolog 1 1 upregulate stage 438112 W85729 Hs.194279 ESTs 1 0.33 upregulate stage 438113 AI467908 Hs.8882 ESTs 1.21 0.55 upregulate stage 438119 AW963217 Hs.203961 ESTs, Moderately similar to AF116721 89 11.75 0.07 upregulate stage 438144 AA778894 Hs.118364 ESTs 1 1 upregulate stage 438153 AI268632 Hs.146159 ESTs 1 1 upregulate stage 438171 AW976507 Hs.293515 ESTs 2.82 0.24 upregulate stage 438271 L21934 Hs.14553 sterol O-acyltransferase (acyl-Coenzyme 1 1 upregulate stage 438290 AA843719 Hs.122341 ESTs 3.9 0.13 upregulate stage 438321 AA576635 Hs.6153 CGI-48 protein 9.4 0.08 upregulate stage 438325 AA804258 Hs.123229 ESTs 4.65 0.11 upregulate stage 438334 AA806992 Hs.291686 ESTs 1 1 upregulate stage 438366 AA805760 gb: ns43f01.s1 NCI_CGAP_GCB1 Homo sapiens 1 0.34 upregulate stage 438370 AA843242 Hs.48523 ESTs 4 0.14 upregulate stage 438374 AA321866 Hs.6193 Homo sapiens mRNA; cDNA DKFZp434C717 (f 1 0.84 upregulate stage 438377 AA806070 Hs.291716 ESTs 1 0.24 upregulate stage 438378 AW970529 Hs.86434 Homo sapiens cDNA: FLJ21816 fis, clone H 6.65 0.11 upregulate stage 438401 AL046321 Hs.197484 ESTs 1 1 upregulate stage 438403 AA806607 Hs.292206 ESTs 2.75 0.14 upregulate stage 438412 AA806776 Hs.130814 ESTs 1 1 upregulate stage 438448 AA807344 Hs.172932 Homo sapiens mRNA for partial 3'UTR, seq 1 0.34 upregulate stage 438451 AI081972 Hs.220261 ESTs 5.7 0.09 upregulate stage 438473 H07986 Hs.136901 ESTs 1 1 upregulate stage 438487 AI684733 Hs.88820 HDCMC28P protein 1 0.21 upregulate stage 438529 AW007287 Hs.28538 Homo sapiens cDNA: FLJ21086 fis, clone C 1 0.36 upregulate stage 438534 AW204052 Hs.123644 ESTs 1 0.37 upregulate stage 438693 AA814369 Hs.249595 ESTs 3.55 0.15 upregulate stage 438698 AW297855 Hs.125815 ESTs 3.12 0.22 upregulate stage 438728 AA815202 Hs.25657 ESTs 1 0.67 upregulate stage 438746 AI885815 Hs.184727 ESTs 1.5 0.35 upregulate stage 438805 AA826048 Hs.117887 ESTs 9.35 0.07 upregulate stage 438812 AA826199 Hs.44287 ESTs 1 0.57 upregulate stage 438817 AI023799 Hs.163242 ESTs 4.2 0.08 upregulate stage 438886 AA827728 Hs.128705 ESTs, Weakly similar to AF149422 2 unkno 4.05 0.12 upregulate stage 438913 AI380429 Hs.172445 ESTs 5.4 0.11 upregulate stage 438950 H23789 Hs.144530 ESTs 1 1 upregulate stage 438961 H42135 Hs.101848 ESTs 7.85 0.08 upregulate stage 438990 AF085890 gb: Homo sapiens full length insert cDNA 1 0.83 upregulate stage 439026 R98978 Hs.117767 ESTs 1 0.27 upregulate stage 439052 AF085917 Hs.37921 ESTs 1 0.22 upregulate stage 439057 H59623 Hs.271561 ESTs 1 1 upregulate stage 439176 AI446444 Hs.190394 ESTs 5.8 0.12 upregulate stage 439179 AA831250 Hs.292693 ESTs 1 1 upregulate stage 439183 AW970600 gb: EST382681 MAGE resequences, MAGK Homo 4.5 0.13 upregulate stage 439208 AK000299 Hs.180952 dynactin p62 subunit 11.9 0.06 upregulate stage 439212 AF087995 Hs.134877 ESTs 11.4 0.07 upregulate stage 439223 AW238299 Hs.23945 ESTs 2.79 0.26 upregulate stage 439312 AA833902 Hs.270745 ESTs 8.9 0.08 upregulate stage 439330 AF086147 gb: Homo sapiens full length insert cDNA 1 0.19 upregulate stage 439351 W37688 Hs.55158 ESTs, Weakly similar to weak similarity 1 0.31 upregulate stage 439430 AF124250 Hs.6564 breast cancer anti-estrogen resistance 3 3.9 0.15 upregulate stage 439444 AI277652 Hs.54578 ESTs 11 0.07 upregulate stage 439453 BE264974 Hs.6566 thyroid hormone receptor interactor 13 12.21 0.05 upregulate stage 439476 AA836340 Hs.165490 ESTs 1 0.65 upregulate stage 439492 AF086310 Hs.103159 ESTs 5.43 0.1 upregulate stage 439527 AW298119 Hs.202536 ESTs 5.25 0.1 upregulate stage 439550 H10438 gb: ym08d10.s1 Scares infant brain 1NIB H 3.2 0.18 upregulate stage 439560 BE565647 Hs.74899 hypothetical protein FLJ12820 1.81 0.32 upregulate stage 439565 AF086386 Hs.145599 ESTs 8.96 0.07 upregulate stage 439592 AF086413 Hs.58399 ESTs 1 1 upregulate stage 439605 AF086431 Hs.134805 ESTs 9.15 0.09 upregulate stage 439606 W79123 Hs.58561 ESTs, Weakly similar to KI01 HUMAN PROBA 8.45 0.06 upregulate stage 439750 AL359053 Hs.57664 Homo sapiens mRNA full length insert cDN 5.43 0.14 upregulate stage 439780 AL109688 gb: Homo sapiens mRNA full length insert 5 0.09 upregulate stage 439851 AI149520 Hs.144453 ESTs 2.75 0.21 upregulate stage 439862 AI571647 Hs.146170 hypothetical protein FLJ22969 6.3 0.11 upregulate stage 439926 AW014875 Hs.137007 ESTs 33.5 0.02 upregulate stage 439942 AW993791 Hs.94881 ESTs 9.9 0.08 upregulate stage 439963 AW247529 Hs.6793 platelet-activating factor acetylhydrola 5.59 0.15 upregulate stage 439979 AW600291 Hs.6823 hypothetical protein FLJ10430 6.95 0.07 upregulate stage 439987 AA860116 Hs.223232 ESTs 2.45 0.17 upregulate stage 439999 AA115811 Hs.6838 ras homolog gene family, member E 8.75 0.07 upregulate stage 440006 AK000517 Hs.6844 hypothetical protein FLJ20510 1.68 0.41 upregulate stage 440012 AA861072 gb: ak32e05.s1 Soares_testis_NHT Homo sap 1 1 upregulate stage 440126 AA975145 Hs.66194 ESTs 1 1 upregulate stage 440194 R43809 Hs.22688 ESTs 1 1 upregulate stage 440228 AF125392 Hs.7089 insulin induced protein 2 1 1 upregulate stage 440249 AI246590 Hs.125325 ESTs 1.74 0.44 upregulate stage 440284 AA912032 Hs.181059 ESTs 1 1 upregulate stage 440334 BE276112 Hs.7165 zinc finger protein 259 9.45 0.09 upregulate stage 440348 AW015802 Hs.47023 ESTs 1 0.33 upregulate stage 440351 AF030933 Hs.7179 RAD1 (S. pombe) homolog 3.75 0.16 upregulate stage 440366 F08229 Hs.125273 ESTs 3.5 0.12 upregulate stage 440462 T71629 Hs.100554 ESTs 1.54 0.52 upregulate stage 440527 AV657117 Hs.184164 ESTs 3.75 0.14 upregulate stage 440613 AI733034 Hs.137079 ESTs 3.9 0.11 upregulate stage 440705 AA904244 Hs.153205 ESTs 3.9 0.14 upregulate stage 440856 AW993377 Hs.130390 ESTs 8.95 0.09 upregulate stage 440899 AW449445 Hs.172690 diacylglycerol kinase, alpha (80 kD) 2.55 0.2 upregulate stage 440917 AA909651 Hs.160025 ESTs 1 0.17 upregulate stage 440980 AL042005 Hs.1117 tripeptidyl peptidase II 8.9 0.09 upregulate stage 440994 AI160011 Hs.193341 ESTs 1.29 0.58 upregulate stage 441092 T99289 Hs.126556 EST 4.9 0.11 upregulate stage 441107 AA917075 Hs.190520 ESTs 5.9 0.09 upregulate stage 441131 AI733222 Hs.126632 ESTs 9.55 0.09 upregulate stage 441143 AI027604 Hs.159650 ESTs 3.8 0.13 upregulate stage 441205 AW137827 Hs.176904 ESTs 4.75 0.12 upregulate stage 441206 BE552314 Hs.131823 ESTs, Weakly similar to TERA HUMAN [H. sa 1 1 upregulate stage 441264 AA927170 Hs.23290 ESTs 4.3 0.14 upregulate stage 441318 AI078234 Hs.176130 ESTs 1.74 0.45 upregulate stage 441334 AI700529 Hs.117964 ESTs 1 1 upregulate stage 441346 AA931077 Hs.186889 Homo sapiens cDNA FLJ12021 fis, clone HE 1 1 upregulate stage 441378 AA931826 Hs.126846 ESTs 4.5 0.1 upregulate stage 441383 AW294408 Hs.222068 ESTs 1 1 upregulate stage 441421 AA356792 Hs.301786 ESTs 1 0.24 upregulate stage 441470 BE503874 Hs.301986 ESTs 0.63 0.93 upregulate stage 441474 AW274946 Hs.144476 ESTs 1 1 upregulate stage 441484 AA935481 Hs.58972 ESTs 1 0.33 upregulate stage 441485 AI792988 Hs.189133 ESTs 4.25 0.1 upregulate stage 441508 AW015203 Hs.232237 ESTs 1 1 upregulate stage 441562 AW578981 Hs.52184 hypothetical protein FLJ20618 4.05 0.12 upregulate stage 441599 AW473362 Hs.127221 ESTs 1 0.29 upregulate stage 441612 AI802629 Hs.113660 Homo sapiens cDNA FLJ11631 fis, clone HE 8.75 0.08 upregulate stage 441616 BE569122 Hs.74111 RNA-binding protein (autoantigenic) 1.14 0.71 upregulate stage 441643 AI740504 Hs.205128 ESTs 1 0.33 upregulate stage 441677 AW271702 Hs.93739 ESTs 1 0.28 upregulate stage 441693 AA384673 Hs.7943 RPB5-mediating protein 1 0.43 upregulate stage 441703 AW390054 Hs.192843 ESTs 9.85 0.08 upregulate stage 441732 AW298818 Hs.127341 ESTs 4.6 0.14 upregulate stage 441759 C16126 Hs.161377 ESTs 4.55 0.13 upregulate stage 441762 AW592203 Hs.144769 ESTs 1 0.83 upregulate stage 441790 AW294909 Hs.132208 ESTs 9 0.08 upregulate stage 441794 AW197794 Hs.253338 ESTs 4.5 0.12 upregulate stage 441799 AW292276 Hs.127872 ESTs 1 0.22 upregulate stage 441801 AW242799 Hs.211874 ESTs 8 0.06 upregulate stage 441904 AI633206 Hs.128104 ESTs 2 0.19 upregulate stage 441955 AA972327 Hs.142903 ESTs 0.87 0.96 upregulate stage 441989 AA306207 Hs.286241 Homo sapiens cDNA: FLJ22698 fis, clone H 9.17 0.07 upregulate stage 441990 T66139 Hs.113631 ESTs 3.55 0.12 upregulate stage 442029 AW956698 Hs.14456 neural precursor cell expressed, develop 4.65 0.14 upregulate stage 442030 W67167 Hs.109080 ESTs 1 0.35 upregulate stage 442064 AI422867 Hs.88594 ESTs 8.8 0.08 upregulate stage 442071 BE048433 Hs.276043 ESTs 9.15 0.09 upregulate stage 442093 AA976049 Hs.128464 ESTs 1 1 upregulate stage 442194 AA984389 Hs.205088 ESTs 1 0.83 upregulate stage 442202 BE272862 Hs.106534 Home sapiens cDNA: FLJ22625 fis, clone H 9.9 0.08 upregulate stage 442203 AI921423 Hs.250146 ESTs 1 1 upregulate stage 442214 AI681733 Hs.129003 ESTs 2.2 0.26 upregulate stage 442216 AI733468 Hs.129006 ESTs 1 1 upregulate stage 442295 AI827248 Hs.224398 Homo sapiens cDNA FLJ11469 fis, clone HE 1.49 0.31 upregulate stage 442319 BE048144 Hs.177677 CGI-102 protein 1 0.29 upregulate stage 442432 BE093589 Hs.38178 Homo sapiens cDNA: FLJ23468 fis, clone H 22.95 0.03 upregulate stage 442510 AF150179 Hs.249890 ESTs 1 0.63 upregulate stage 442518 AF150226 gb: AF150226 Human mRNA from cd34 + stem c 1 1 upregulate stage 442539 AL119506 Hs.58220 Homo sapiens cDNA: FLJ23005 fis, clone L 1 0.23 upregulate stage 442552 R20624 Hs.83572 son of sevenless (Drosophila) homolog 1 9 0.08 upregulate stage 442562 BE379584 Hs.34789 ESTs 6.55 0.1 upregulate stage 442564 AI590207 Hs.188378 ESTs 1 1 upregulate stage 442577 AA292998 Hs.163900 ESTs 1.41 0.52 upregulate stage 442590 AI002686 Hs.130313 ESTs 1 0.36 upregulate stage 442597 AI499214 Hs.130825 ESTs 1 1 upregulate stage 442611 BE077155 Hs.177537 ESTs 4.35 0.15 upregulate stage 442612 AI005233 Hs.130631 ESTs 1 0.28 upregulate stage 442619 AA447492 Hs.20183 ESTs, Weakly similar to AF164793 1 prote 7.85 0.09 upregulate stage 442642 R51853 Hs.226429 ESTs 1 1 upregulate stage 442660 AW138174 Hs.130651 ESTs 4.1 0.09 upregulate stage 442696 BE566962 Hs.7063 Homo sapiens cDNA: FLJ20913 fis, clone A 2.65 0.16 upregulate stage 442712 BE465168 Hs.131011 ESTs 2.51 0.23 upregulate stage 442760 BE075297 Hs.10067 ESTs, Weakly similar to KIAA1205 protein 8 0.1 upregulate stage 442769 AW243058 Hs.131155 ESTs 1 0.3 upregulate stage 442785 AW296625 Hs.131188 ESTs 1 0.27 upregulate stage 442806 AW294522 Hs.149991 ESTs 9.6 0.08 upregulate stage 442856 H56735 Hs.282958 Homo sapiens cDNA FLJ13611 fis, clone PL 4.3 0.11 upregulate stage 442861 AA243837 Hs.57787 ESTs 3.9 0.12 upregulate stage 442875 BE623003 Hs.23625 Homo sapiens clone TCCCTA00142 mRNA sequ 3.85 0.15 upregulate stage 442879 AF032922 Hs.8813 syntaxin binding protein 3 3.95 0.14 upregulate stage 442883 AW195774 Hs.253199 ESTs 1 1 upregulate stage 442961 BE614474 Hs.289074 Homo sapiens cDNA FLJ13986 fis, clone Y7 11.55 0.07 upregulate stage 442966 AI394036 Hs.132237 ESTs, Weakly similar to dual specificity 2.95 0.16 upregulate stage 442980 AA857025 Hs.8878 kinesin-like 1 1 0.24 upregulate stage 442992 AI914699 Hs.13297 ESTs 6.1 0.14 upregulate stage 442994 AI026718 Hs.16954 ESTs 8.9 0.07 upregulate stage 443054 AI745185 Hs.8939 yes-associated protein 65 kDa 5.7 0.11 upregulate stage 443113 AI040686 Hs.132908 ESTs 3.9 0.14 upregulate stage 443119 AA312264 Hs.7980 ESTs, Moderately similar to ALU4_HUMAN A 8.73 0.08 upregulate stage 443171 BE281128 Hs.9030 TONDU 3.18 0.22 upregulate stage 443211 AI128388 Hs.143655 ESTs 6.55 0.08 upregulate stage 443242 BE243910 Hs.9082 nucleoporin p54 11.05 0.06 upregulate stage 443243 AI452496 Hs.132056 ESTs 8.9 0.09 upregulate stage 443247 BE614387 Hs.47378 ESTs, Moderately similar to hypothetical 10.95 0.05 upregulate stage 443270 NM_004272 Hs.9192 Homer, neuronal immediate early gene, 1B 3.75 0.2 upregulate stage 443299 AI733642 Hs.133042 ESTs 1 0.69 upregulate stage 443362 AI053464 Hs.166505 ESTs 2.9 0.16 upregulate stage 443383 AI792453 Hs.166507 ESTs 5 0.14 upregulate stage 443411 AW134566 Hs.65320 ESTs 1 0.59 upregulate stage 443426 AF098158 Hs.9329 chromosome 20 open reading frame 1 2.68 0.31 upregulate stage 443447 AI094222 Hs.166572 ESTs 1 0.38 upregulate stage 443542 AI927065 Hs.146040 ESTs 5.65 0.13 upregulate stage 443557 AV645987 Hs.145681 ESTs 1 1 upregulate stage 443584 AI807036 Hs.101619 ESTs 1 0.36 upregulate stage 443606 AI078664 Hs.199424 ESTs 1.15 0.33 upregulate stage 443634 H73972 Hs.134460 ESTs 3.05 0.16 upregulate stage 443640 AI872643 Hs.134218 ESTs 3.65 0.12 upregulate stage 443715 AI583187 Hs.9700 cyclin E1 5.65 0.11 upregulate stage 443799 AA150320 Hs.9800 protein kinase Njmu-R1 1.8 0.19 upregulate stage 443899 AW842283 Hs.79933 cyclin I 4.65 0.13 upregulate stage 443917 AW503739 Hs.72325 Human DNA sequence from clone RP1-187J11 1 1 upregulate stage 443919 AI091284 Hs.135224 ESTs 8.05 0.07 upregulate stage 443967 AW294013 Hs.200942 ESTs 5.55 0.13 upregulate stage 443977 AL120986 Hs.150627 ESTs 4 0.14 upregulate stage 443979 AV647366 Hs.282365 ESTs 1 1 upregulate stage 444020 R92962 Hs.35052 ESTs 10.45 0.08 upregulate stage 444105 AW189097 Hs.166597 ESTs 6.29 0.1 upregulate stage 444129 AW294292 Hs.256212 ESTs 1 0.77 upregulate stage 444152 AI125694 Hs.149305 Homo sapiens cDNA FLJ14264 fis, clone PL 1.64 0.48 upregulate stage 444163 AI126098 gb: qc54g07.x1 Soares_placenta_8to9weeks_(—) 1.12 0.81 upregulate stage 444166 AV648429 Hs.282393 ESTs 1 1 upregulate stage 444270 AI138580 Hs.255220 EST 1 0.47 upregulate stage 444271 AW452569 Hs.149804 ESTs 3.2 0.12 upregulate stage 444282 AI138955 gb: qd79b07.x1 Soares_testis_NHT Homo sap 1 1 upregulate stage 444333 AI262567 Hs.253801 trinucleotide repeat containing 15 1 0.77 upregulate stage 444342 NM_014398 Hs.10887 similar to lysosome-associated membrane 6.9 0.06 upregulate stage 444378 R41339 Hs.12569 ESTs 1 0.32 upregulate stage 444381 BE387335 Hs.283713 ESTs, Weakly similar to CA54_HUMAN COLLA 2.85 0.26 upregulate stage 444431 AW513324 Hs.42280 ESTs 6.27 0.12 upregulate stage 444437 AI377961 Hs.44041 ESTs 9.9 0.07 upregulate stage 444444 AI149332 Hs.14855 ESTs 1.16 0.47 upregulate stage 444525 AW593778 Hs.259699 ESTs 1 0.5 upregulate stage 444584 AI168422 gb: ok30e11.x1 Soares_NSF_F8_9W_OT_PA_P_S 3.6 0.15 upregulate stage 444599 AI174377 Hs.143796 ESTs 1 0.44 upregulate stage 444646 AI184565 gb: qd60b08.x1 Soares_testis_NHT Homo sap 1 1 upregulate stage 444649 AW207523 Hs.197628 ESTs 9.35 0.06 upregulate stage 444675 AI186380 Hs.244621 ESTs 9.88 0.08 upregulate stage 444698 AI188139 Hs.147050 ESTs 1 0.36 upregulate stage 444743 AA045648 Hs.11817 nudix (nucleoside diphosphate linked moi 2.1 0.15 upregulate stage 444762 AI733700 Hs.143883 ESTs 3.9 0.14 upregulate stage 444781 NM_014400 Hs.11950 GPI-anchored metastasis-associated prote 1.44 0.53 upregulate stage 444783 AK001468 Hs.62180 anillin (Drosophila Scraps homolog), act 6.65 0.07 upregulate stage 444838 AV651680 Hs.208558 ESTs 4.84 0.14 upregulate stage 444849 AI199438 Hs.148480 ESTs 3.05 0.17 upregulate stage 444950 AI950256 Hs.224875 ESTs 1 0.51 upregulate stage 445027 AV652692 Hs.282498 ESTs 11.1 0.08 upregulate stage 445091 AI652154 Hs.147294 ESTs 1 1 upregulate stage 445098 AL050272 Hs.12305 DKFZP566B183 protein 9.75 0.07 upregulate stage 445101 T75202 Hs.12314 Homo sapiens mRNA; cDNA DKFZp586C1019 (f 10.9 0.07 upregulate stage 445250 AI597838 Hs.175621 ESTs 9.8 0.08 upregulate stage 445258 AI635931 Hs.147613 ESTs 3.05 0.13 upregulate stage 445390 AI222165 Hs.144923 ESTs 10.6 0.06 upregulate stage 445396 BE181792 gb: QV1-HT0639-070500-193-g06 HT0639 Homo 1 0.29 upregulate stage 445413 AA151342 Hs.12677 CGI-147 protein 4.65 0.12 upregulate stage 445436 AI224105 Hs.151408 ESTs 1.35 0.22 upregulate stage 445444 AA380876 Hs.270 pleckstrin homology, Sec7 and coiled/coi 10.7 0.07 upregulate stage 445483 AI307150 Hs.148845 ESTs 1 1 upregulate stage 445496 AB007860 Hs.12802 development and differentiation enhancin 12.05 0.06 upregulate stage 445525 BE149866 Hs.14831 ESTs 10.65 0.06 upregulate stage 445527 W39694 Hs.83286 ESTs 4.85 0.1 upregulate stage 445537 AJ245671 Hs.12844 EGF-like-domain, multiple 6 9.7 0.06 upregulate stage 445546 AW468821 Hs.156054 ESTs 4.2 0.13 upregulate stage 445576 AI793233 Hs.145608 ESTs 1 0.31 upregulate stage 445623 AI245366 Hs.149158 ESTs 1 1 upregulate stage 445640 AW969626 Hs.31704 ESTs, Weakly similar to KIAA0227 [H. sapi 4.7 0.13 upregulate stage 445668 AI557114 Hs.181591 EST 1 0.34 upregulate stage 445766 AI623607 Hs.282977 Homo sapiens cDNA FLJ13490 fis, clone PL 1 0.23 upregulate stage 445770 AL119499 Hs.13285 neuronal potassium channel alpha subunit 1 1 upregulate stage 445778 AA196443 Hs.86043 Homo sapiens cDNA FLJ13558 fis, clone PL 9.7 0.07 upregulate stage 445787 AI253167 Hs.145395 ESTs, Weakly similar to ALUC_HUMAN !!!! 3.1 0.13 upregulate stage 445814 H92020 Hs.101624 ESTs 1 1 upregulate stage 445818 BE045321 Hs.136017 ESTs 1 1 upregulate stage 445829 AI452457 Hs.145526 ESTs 1 0.37 upregulate stage 445832 AI261545 gb: qz30a07.x1 NCI_CGAP_Kid11 Homo sapien 3.21 0.22 upregulate stage 445873 AA250970 Hs.251946 Homo sapiens cDNA: FLJ23107 fis, clone L 5.25 0.12 upregulate stage 445880 AV655474 Hs.131058 ESTs 1.05 0.27 upregulate stage 445883 AF070559 Hs.13413 Homo sapiens clone 24463 mRNA sequence 1 1 upregulate stage 445908 R13580 Hs.13436 Homo sapiens clone 24425 mRNA sequence 3.25 0.15 upregulate stage 445939 BE018658 Hs.141003 Homo sapiens cDNA: FLJ21691 fis, clone C 8.85 0.08 upregulate stage 446019 AI362520 Hs.94133 ESTs 9.75 0.08 upregulate stage 446054 AB014537 Hs.13604 KIAA0637 gene product 10.25 0.07 upregulate stage 446062 AA211738 Hs.282974 ESTs, Weakly similar to transformation-r 1 1 upregulate stage 446080 AI221741 Hs.117777 ESTs 9.75 0.09 upregulate stage 446082 AI274139 Hs.156452 ESTs 1.37 0.4 upregulate stage 446099 T93096 Hs.17126 ESTs 2.4 0.31 upregulate stage 446119 D29527 gb: HUMNK667 Human epidermal keratinocyte 1 1 upregulate stage 446120 N26080 Hs.43741 ESTs 1 0.31 upregulate stage 446126 AW085909 Hs.47413 ESTs 9.35 0.08 upregulate stage 446127 AA333608 Hs.13980 ubiquitously transcribed tetratricopepti 1 0.25 upregulate stage 446152 AI292036 Hs.150028 ESTs 4.7 0.12 upregulate stage 446196 AI744888 Hs.149470 ESTs 1 0.83 upregulate stage 446229 AI744964 Hs.14449 KIAA1609 protein 2.4 0.36 upregulate stage 446248 AI283014 Hs.149638 ESTs 1 1 upregulate stage 446269 AW263155 Hs.14559 hypothetical protein FLJ10540 10.85 0.07 upregulate stage 446303 X77244 Hs.14732 malic enzyme 1, NADP(+)-dependent cytos 1 1 upregulate stage 446312 BE087853 gb: QV1-BT0681-290400-181-h05 BT0681 Homo 11.75 0.06 upregulate stage 446332 AK001635 Hs.14838 hypothetical protein FLJ10773 6.45 0.1 upregulate stage 446356 AI816736 Hs.14896 DHHC1 protein 8.9 0.08 upregulate stage 446362 AW612481 Hs.255914 ESTs 7.6 0.1 upregulate stage 446398 AI681317 Hs.150074 ESTs 1 1 upregulate stage 446411 AI298828 Hs.153439 ESTs 1 0.37 upregulate stage 446474 AI301227 Hs.150186 ESTs 3.35 0.13 upregulate stage 446501 AI302616 Hs.150819 ESTs 4.25 0.12 upregulate stage 446507 AA352554 Hs.15164 nuclear DNA-binding protein 11.25 0.06 upregulate stage 446526 H89616 Hs.296290 Homo sapiens cDNA FLJ13357 fis, clone PL 10.25 0.07 upregulate stage 446555 AV659046 Hs.201847 ESTs 1 1 upregulate stage 446577 AB040933 Hs.15420 KIAA1500 protein 1 0.51 upregulate stage 446629 AI436046 Hs.156148 Homo sapiens cDNA: FLJ23082 fis, clone L 1 0.25 upregulate stage 446636 AC002563 Hs.15767 citron (rho-interacting, serine/threonin 2.54 0.28 upregulate stage 446682 AW205632 Hs.211198 ESTs 4 0.18 upregulate stage 446701 AK001621 Hs.15921 hypothetical protein FLJ10759 1.32 0.69 upregulate stage 446718 AV660019 Hs.282676 ESTs 1 1 upregulate stage 446719 W39500 Hs.47305 ESTs, Weakly similar to LONN_HUMAN MITOC 9.65 0.07 upregulate stage 446720 AI439136 Hs.140546 ESTs 4.55 0.12 upregulate stage 446765 AV660348 Hs.282688 ESTs 1 0.91 upregulate stage 446771 AA128965 Hs.60679 TATA box binding protein (TBP)-associate 11.2 0.06 upregulate stage 446821 W03766 Hs.301482 ESTs 8.9 0.09 upregulate stage 446830 BE179030 Hs.64239 Human DNA sequence from clone RP5-1174N9 10.65 0.07 upregulate stage 446839 BE091926 Hs.16244 mitotic spindle coiled-coil related prot 14.05 0.05 upregulate stage 446853 AV660630 Hs.87627 disrupter of silencing 10 9.7 0.09 upregulate stage 446880 AI811807 Hs.108646 Homo sapiens cDNA FLJ12534 fis, clone NT 11.05 0.06 upregulate stage 446922 BE175605 gb: RC5-HT0580-100500-022-H07 HT0580 Homo 2.75 0.16 upregulate stage 446950 AA305800 Hs.293454 ESTs, Weakly similar to Similarity to Ye 9.6 0.06 upregulate stage 446988 AW339533 Hs.272108 ESTs 1 0.29 upregulate stage 446989 AK001898 Hs.16740 hypothetical protein FLJ11036 1.75 0.51 upregulate stage 447052 AV661911 Hs.282735 ESTs 1 1 upregulate stage 447065 AI829014 Hs.158678 ESTs 1 0.25 upregulate stage 447069 AI359927 Hs.157722 ESTs 1 0.4 upregulate stage 447078 AW885727 Hs.301570 ESTs 4.4 0.13 upregulate stage 447080 AI418781 Hs.300144 ESTs 1 0.31 upregulate stage 447081 Y13896 Hs.17287 potassium inwardly-rectifying channel, s 3.55 0.12 upregulate stage 447118 AB014599 Hs.17411 KIAA0699 protein 10.15 0.07 upregulate stage 447153 AA805202 Hs.173912 eukaryotic translation initiation factor 6.2 0.12 upregulate stage 447154 H52284 Hs.293545 ESTs 1 0.24 upregulate stage 447159 AI685286 Hs.280386 EST 1.25 0.25 upregulate stage 447215 BE617056 Hs.283000 ESTs 2.4 0.16 upregulate stage 447228 AW192200 Hs.158188 ESTs 1 0.29 upregulate stage 447258 BE047911 gb: tz44a05.y1 NCI_CGAP_Brn52 Homo sapien 1.15 0.23 upregulate stage 447286 AW197097 Hs.183858 transcriptional intermediary factor 1 1 1 upregulate stage 447289 AW247017 Hs.36978 melanoma antigen, family A, 3 1 1 upregulate stage 447334 AA515032 Hs.91109 ESTs 9.15 0.08 upregulate stage 447342 AI199268 Hs.19322 ESTs 5.95 0.09 upregulate stage 447343 AA256641 Hs.236894 ESTs, Highly similar to LRP1_HUMAN LOW-D 2.11 0.33 upregulate stage 447376 AI376747 gb: tc35h05.x1 Soares_total_fetus_Nb2HF8_(—) 1 0.33 upregulate stage 447397 BE247676 Hs.18442 E-1 enzyme 5.3 0.14 upregulate stage 447430 AI742989 Hs.206112 ESTs 3.65 0.13 upregulate stage 447444 AK000318 Hs.18616 hypothetical protein FLJ20311 9.2 0.08 upregulate stage 447519 U46258 Hs.23448 ESTs 14.4 0.05 upregulate stage 447522 BE143888 gb: MR0-HT0165-081199-001-b04 HT0165 Homo 1.7 0.18 upregulate stage 447578 AA912347 Hs.136585 ESTs 1.5 0.3 upregulate stage 447606 AI588954 Hs.170995 ESTs 2.7 0.16 upregulate stage 447688 N87079 Hs.19236 NADH dehydrogenase (ubiquinone) 1 beta s 4.55 0.12 upregulate stage 447701 BE619526 Hs.255527 ESTs, Weakly similar to unnamed protein 1.63 0.46 upregulate stage 447741 AI421737 Hs.167253 ESTs 1 1 upregulate stage 447748 AI422023 Hs.161338 ESTs 3.9 0.11 upregulate stage 447827 U73727 Hs.19718 protein tyrosine phosphatase, receptor t 1.44 0.59 upregulate stage 447881 BE620886 Hs.23037 ESTs 12.15 0.06 upregulate stage 447963 AI452973 Hs.165900 ESTs, Weakly similar to ALUC_HUMAN !!!! 8.9 0.08 upregulate stage 447977 AI457097 Hs.255906 ESTs 1 1 upregulate stage 447978 AI457098 Hs.280848 ESTs 1 1 upregulate stage 447982 H22953 Hs.137551 ESTs 4.25 0.13 upregulate stage 448032 AW511770 Hs.246868 ESTs 1 1 upregulate stage 448045 AJ297436 Hs.20166 prostate stem cell antigen 2.22 0.29 upregulate stage 448058 AI458998 Hs.170424 ESTs 1 0.51 upregulate stage 448062 AW295923 Hs.255472 ESTs 5.9 0.08 upregulate stage 448138 AW847925 Hs.170736 ESTs 1 1 upregulate stage 448154 AL120320 Hs.203230 ESTs 9.85 0.07 upregulate stage 448165 NM_005591 Hs.202379 meiotic recombination (S. cerivisiae) 11 7.3 0.09 upregulate stage 448168 AW605999 Hs.22549 hypothetical protein FLJ12799 1 0.77 upregulate stage 448236 AA890449 Hs.20766 oxysterol 7alpha-hydroxylase 1 0.47 upregulate stage 448256 BE614149 Hs.20814 CGI-27 protein 11.95 0.07 upregulate stage 448289 AW390251 Hs.202402 ESTs 1 0.47 upregulate stage 448356 AL120837 Hs.20993 high-glucose-regulated protein 8 11 0.07 upregulate stage 448357 N20169 Hs.108923 ESTs 1.34 0.61 upregulate stage 448408 AA322866 Hs.21107 neuroligin 1.7 0.24 upregulate stage 448455 AI252625 Hs.269860 ESTs 8.8 0.09 upregulate stage 448459 AW069838 Hs.171055 ESTs 1 0.27 upregulate stage 448464 AI522053 Hs.196093 ESTs 10.35 0.06 upregulate stage 448468 BE550361 Hs.171072 ESTs 1 1 upregulate stage 448502 AW805285 Hs.239699 ESTs 9.3 0.08 upregulate stage 448552 AW973653 Hs.20104 hypothetical protein FLJ00052 4.75 0.13 upregulate stage 448556 AW885606 Hs.5064 ESTs 9.8 0.08 upregulate stage 448569 BE382657 Hs.21486 signal transducer and activator of trans 2.14 0.35 upregulate stage 448632 BE614269 gb: 601504311T1 NIH_MGC_71 Homo sapiens c 1 1 upregulate stage 448643 AI557531 gb: pt2.1-06.D06.r tumor2 Homo sapiens cD 3.6 0.14 upregulate stage 448649 T94590 Hs.222855 ESTs 1.95 0.21 upregulate stage 448663 BE614599 Hs.106823 H. sapiens gene from PAC 426I6, similar t 4.3 0.12 upregulate stage 448680 AW245890 Hs.21753 JM5 protein 0.97 0.93 upregulate stage 448725 AA193251 Hs.40289 ESTs 2.6 0.19 upregulate stage 448729 BE614535 Hs.138580 ESTs, Weakly similar to ALU5_HUMAN ALU S 3.25 0.16 upregulate stage 448743 AB032962 Hs.21896 KIAA1136 protein 1.9 0.19 upregulate stage 448826 AI580252 Hs.293246 ESTs, Weakly similar to putative p150 [H 1.78 0.44 upregulate stage 448914 AI927656 Hs.196459 ESTs 2.75 0.19 upregulate stage 448946 AI652855 Hs.155796 ESTs 9.7 0.07 upregulate stage 448958 AB020651 Hs.22653 KIAA0844 protein 1 0.18 upregulate stage 448974 AL049390 Hs.22689 Homo sapiens mRNA; cDNA DKFZp586O1318 (f 5.85 0.11 upregulate stage 448979 AI611378 Hs.192610 ESTs 1 1 upregulate stage 449008 AW578003 Hs.22826 tropomodulin 3 (ubiquitous) 5.2 0.11 upregulate stage 449032 AA045573 Hs.22900 nuclear factor (erythroid-derived 2)-lik 1 0.33 upregulate stage 449053 AI625777 Hs.270344 ESTs 5.73 0.12 upregulate stage 449057 AB037784 Hs.22941 KIAA1363 protein 9.25 0.07 upregulate stage 449148 AW836677 Hs.287564 Homo sapiens cDNA FLJ13345 fis, clone OV 7.2 0.09 upregulate stage 449203 AI634578 Hs.282121 ESTs 7 0.1 upregulate stage 449207 AL044222 Hs.23255 nucleoporin 155 kD 2.34 0.36 upregulate stage 449219 AI637581 Hs.195012 ESTs 1 1 upregulate stage 449230 BE613348 Hs.23348 S-phase kinase-associated protein 2 (p45 3.08 0.25 upregulate stage 449246 AW411209 Hs.23363 hypothetical protein FLJ10983 4.79 0.16 upregulate stage 449318 AW236021 Hs.108788 ESTs, Weakly similar to zeste [D. melanog 2.8 0.16 upregulate stage 449328 AI962493 Hs.197647 ESTs 2.55 0.17 upregulate stage 449343 AI151418 Hs.272458 protein phosphatase 3 (formerly 2B), cat 4.75 0.12 upregulate stage 449344 AI640355 gb: wa17c04.x1 NCI_CGAP_Kid11 Homo sapien 2.1 0.22 upregulate stage 449351 AW016537 Hs.200760 ESTs 2.45 0.14 upregulate stage 449370 AK002114 Hs.23495 hypothetical protein FLJ11252 1.55 0.14 upregulate stage 449424 AW448937 Hs.197030 ESTs 4.05 0.12 upregulate stage 449425 AW103433 Hs.195684 ESTs 4.6 0.12 upregulate stage 449434 AW294858 Hs.197641 ESTs 1 0.29 upregulate stage 449437 AI702038 Hs.100057 Homo sapiens cDNA: FLJ22902 fis, clone K 2.38 0.34 upregulate stage 449474 AA019344 Hs.2055 ubiquitin-activating enzyme E1 (A1S9T an 5.9 0.12 upregulate stage 449523 NM_000579 Hs.54443 chemokine (C-C motif) receptor 5 6.45 0.1 upregulate stage 449528 H63337 Hs.38178 Homo sapiens cDNA: FLJ23468 fis, clone H 2.85 0.18 upregulate stage 449565 AI824925 Hs.197066 ESTs 1 1 upregulate stage 449568 AL157479 Hs.23740 KIAA1598 protein 10.15 0.06 upregulate stage 449618 AI076459 Hs.14366 Homo sapiens cDNA FLJ12819 fis, clone NT 11.7 0.06 upregulate stage 449639 AA001968 Hs.59956 ESTs, Highly similar to MGR7_HUMAN METAB 1 1 upregulate stage 449666 AA002047 gb: zh84e05.r1 Soares_fetal_liver_spleen_(—) 1.85 0.33 upregulate stage 449704 AK000733 Hs.23900 GTPase activating protein 2.82 0.3 upregulate stage 449722 BE280074 Hs.23960 cyclin B1 6.44 0.12 upregulate stage 449764 N93104 Hs.54895 ESTs, Weakly similar to ZNF91L [H. sapien 1 1 upregulate stage 449784 AW161319 Hs.12915 ESTs 6.25 0.11 upregulate stage 449829 N51440 Hs.47261 ESTs 1 0.57 upregulate stage 449843 R85337 Hs.24030 solute carrier family 31 (copper transpo 10.2 0.07 upregulate stage 449892 N73608 Hs.50309 ESTs 6.5 0.1 upregulate stage 449894 AK001578 Hs.24129 hypothetical protein FLJ10716 4.55 0.12 upregulate stage 449919 AI674685 Hs.200141 ESTs 5.3 0.11 upregulate stage 450020 AI680684 Hs.282219 ESTs 1 1 upregulate stage 450033 R43010 Hs.269452 ESTs, Weakly similar to JH0148 nucleolin 1 0.65 upregulate stage 450063 AI681509 Hs.277133 ESTs 4.2 0.17 upregulate stage 450083 AA131795 Hs.142001 ESTs 3.9 0.16 upregulate stage 450116 AA005355 Hs.222882 ESTs 1 1 upregulate stage 450121 AL040174 Hs.288927 Homo sapiens cDNA: FLJ22944 fis, clone K 1 1 upregulate stage 450135 AI810816 Hs.201142 ESTs 4.95 0.14 upregulate stage 450144 T63961 Hs.301851 ESTs 2.75 0.13 upregulate stage 450149 AW969781 Hs.293440 ESTs, Moderately similar to ZIC2 protein 3.75 0.14 upregulate stage 450151 AI088196 Hs.295233 ESTs 2.51 0.28 upregulate stage 450152 AI138635 Hs.22968 ESTs 2.45 0.15 upregulate stage 450195 AA007352 Hs.256042 ESTs 4.1 0.14 upregulate stage 450221 AA328102 Hs.24641 cytoskeleton associated protein 2 1 0.3 upregulate stage 450238 T89693 Hs.138777 ESTs 12.2 0.07 upregulate stage 450257 AW820313 gb: QV2-ST0296-150200-028-d02 ST0296 Homo 1 1 upregulate stage 450313 AI038989 Hs.24809 hypothetical protein FLJ10826 4.35 0.15 upregulate stage 450314 AA574309 Hs.283402 TCR eta 10.1 0.07 upregulate stage 450350 T97817 Hs.174880 ESTs 3.65 0.1 upregulate stage 450411 D61167 Hs.202156 ESTs 1 0.67 upregulate stage 450447 AF212223 Hs.25010 hypothetical protein P15-2 10.75 0.07 upregulate stage 450448 D54299 Hs.36244 ESTs 1 1 upregulate stage 450449 AI696596 Hs.202068 ESTs 1 1 upregulate stage 450506 NM_004460 Hs.418 fibroblast activation protein, alpha 11.45 0.05 upregulate stage 450573 AW964334 gb: EST376407 MAGE resequences, MAGH Homo 1.2 0.2 upregulate stage 450628 AW382884 Hs.204715 ESTs 4.95 0.13 upregulate stage 450636 AI703076 Hs.201959 ESTs 1 0.69 upregulate stage 450655 AI707846 Hs.279860 hypothetical protein FLJ20030 1 1 upregulate stage 450664 AA808358 Hs.36830 ESTs 1 0.34 upregulate stage 450680 AF131784 Hs.25318 Homo sapiens clone 25194 mRNA sequence 9.51 0.09 upregulate stage 450722 AI732318 Hs.101120 ESTs 1 0.87 upregulate stage 450751 AI733251 Hs.126853 ESTs, Weakly similar to JU0033 hypotheti 1 1 upregulate stage 450772 BE326391 Hs.280146 ESTs, Weakly similar to JU0033 hypotheti 1 1 upregulate stage 450800 BE395161 Hs.243963 ESTs, Weakly similar to ALU5_HUMAN ALU S 8.7 0.08 upregulate stage 450824 R09055 Hs.269204 ESTs 3.03 0.22 upregulate stage 450832 AW970602 Hs.105421 ESTs 6.15 0.08 upregulate stage 450870 AA011471 gb: zi01h08.r1 Soares_fetal_liver_spleen_(—) 1.15 0.23 upregulate stage 450937 R49131 Hs.26267 ATP-dependant interferon response protei 9.75 0.08 upregulate stage 450983 AA305384 Hs.25740 ERO1 (S. cerivisiae)-like 3.32 0.26 upregulate stage 451052 AA281504 Hs.24444 ESTs, Moderately similar to ALUE_HUMAN ! 9.25 0.08 upregulate stage 451067 BE172186 Hs.180789 S164 protein 2.8 0.21 upregulate stage 451088 AA015600 Hs.82415 ESTs 1 0.32 upregulate stage 451094 AI949825 Hs.260395 ESTs 4.45 0.14 upregulate stage 451096 BE383234 Hs.25925 Homo sapiens clone 23860 mRNA sequence 4.15 0.14 upregulate stage 451126 H30600 Hs.40910 ESTs 1 1 upregulate stage 451161 AA211329 Hs.26006 hypothetical protein FLJ10559 2.15 0.16 upregulate stage 451166 T98171 Hs.185675 ESTs 9.26 0.08 upregulate stage 451222 AA018386 Hs.64341 ESTs 1 0.36 upregulate stage 451225 AI433694 Hs.293608 ESTs 9.19 0.08 upregulate stage 451228 AI767166 Hs.207025 ESTs 1 1 upregulate stage 451246 AW189232 Hs.39140 cutaneous T-cell lymphoma tumor antigen 7.35 0.11 upregulate stage 451266 AA016292 Hs.290849 ESTs 1 0.33 upregulate stage 451276 AW294386 Hs.236533 ESTs, Highly similar to dJ742C19.2 [H. sa 1 1 upregulate stage 451277 AK001123 Hs.26176 hypothetical protein FLJ10261 11.7 0.06 upregulate stage 451291 R39288 Hs.6702 ESTs 1 1 upregulate stage 451326 AW296946 Hs.300967 ESTs 10.55 0.07 upregulate stage 451347 AI288679 Hs.101139 ESTs 1 1 upregulate stage 451359 H85334 gb: ys90e05.r1 Soares retina N2b5HR Homo 2.7 0.15 upregulate stage 451365 AI791783 gb: op20h10.y5 NCI_CGAP_Co12 Homo sapiens 8.9 0.09 upregulate stage 451386 AB029006 Hs.26334 spastic paraplegia 4 (autosomal dominant 2.45 0.19 upregulate stage 451440 AA017599 Hs.293817 ESTs 1 1 upregulate stage 451487 AA018072 gb: ze51g02.r1 Soares retina N2b4HR Homo 5.7 0.1 upregulate stage 451492 AA018119 Hs.297824 ESTs, Highly similar to CIK1_HUMAN VOLTA 1 1 upregulate stage 451495 H86887 gb: yt07a01.r1 Soares retina N2b5HR Homo 4.25 0.13 upregulate stage 451535 AW970577 gb: EST382658 MAGE resequences, MAGK Homo 6.8 0.12 upregulate stage 451553 AA018454 Hs.269211 ESTs, Weakly similar to B34087 hypotheti 1 1 upregulate stage 451562 H04150 Hs.107708 ESTs 4.65 0.11 upregulate stage 451580 AW138195 Hs.184326 CDC10 (cell division cycle 10, S. cerevi 1 0.42 upregulate stage 451592 AI805416 Hs.213897 ESTs 2.8 0.17 upregulate stage 451651 AI097337 Hs.88977 hypothetical protein dJ511E16.2 1 0.18 upregulate stage 451658 AW195351 Hs.250520 ESTs 9.55 0.07 upregulate stage 451684 AF216751 Hs.26813 CDA14 3.7 0.15 upregulate stage 451690 AW451469 Hs.209990 ESTs 10.86 0.07 upregulate stage 451724 AI903765 gb: UI-BT037-301298-102 BT037 Homo sapien 8.85 0.09 upregulate stage 451743 AW074266 Hs.23071 ESTs 2.17 0.35 upregulate stage 451794 AA019799 Hs.111911 ESTs 1 1 upregulate stage 451844 T61430 gb: yc06a03.s1 Stratagene lung (937210) H 6.5 0.11 upregulate stage 451903 W19617 Hs.261003 ESTs, Moderately similar to B34087 hypot 2.2 0.21 upregulate stage 451914 AI822115 Hs.270618 ESTs, Weakly similar to KIAA0822 protein 11.67 0.07 upregulate stage 451938 AI354355 Hs.16697 down-regulator of transcription 1, TBP-b 11.65 0.06 upregulate stage 451939 U80456 Hs.27311 single-minded (Drosophila) homolog 2 1 0.95 upregulate stage 451971 AA021185 Hs.226306 ESTs 1 1 upregulate stage 451998 AW594129 Hs.213666 ESTs 1 0.26 upregulate stage 452028 AK001859 Hs.27595 hypothetical protein FLJ10997 1 0.21 upregulate stage 452036 NM_003966 Hs.27621 sema domain, seven thrombospondin repeat 1.76 0.41 upregulate stage 452099 BE612992 Hs.27931 hypothetical protein FLJ10607 similar to 8.9 0.07 upregulate stage 452122 AF216833 Hs.1710 ATP-binding cassette, sub-family B (MDR/ 1 0.47 upregulate stage 452163 AI863140 gb: tz43h12.x1 NCI_CGAP_Bm52 Homo sapien 1 0.2 upregulate stage 452179 H16725 Hs.27463 ESTs 3 0.13 upregulate stage 452198 AI097560 Hs.61210 ESTs 1 0.28 upregulate stage 452206 AW340281 Hs.33074 ESTs, Moderately similar to ALU1_HUMAN A 12.4 0.07 upregulate stage 452234 AW084176 Hs.223296 ESTs 6.8 0.09 upregulate stage 452240 AI591147 Hs.61232 ESTs 3.75 0.07 upregulate stage 452247 AL137432 Hs.28564 hypothetical protein DKFZp761E1824 3.9 0.15 upregulate stage 452250 BE618654 Hs.28607 hypothetical protein A-211C6.1 8.75 0.09 upregulate stage 452256 AK000933 Hs.28661 Homo sapiens cDNA FLJ10071 fis, clone HE 5.2 0.09 upregulate stage 452266 AI767250 Hs.165240 ESTs 10.45 0.06 upregulate stage 452277 AL049013 Hs.28783 KIAA1223 protein 8.9 0.05 upregulate stage 452281 T93500 Hs.28792 Homo sapiens cDNA FLJ11041 fis, clone PL 8.2 0.04 upregulate stage 452291 AF015592 Hs.28853 CDC7 (cell division cycle 7, S. cerevisi 3.5 0.13 upregulate stage 452328 AA805679 Hs.61271 ESTs 3.5 0.14 upregulate stage 452331 AA598509 Hs.29117 H. sapiens mRNA for pur alpha extended 3′ 11.75 0.07 upregulate stage 452345 AA293279 Hs.29173 hypothetical protein FLJ20515 1.08 0.73 upregulate stage 452367 U71207 Hs.29279 eyes absent (Drosophila) homolog 2 10.15 0.07 upregulate stage 452401 NM_007115 Hs.29352 tumor necrosis factor, alpha-induced pro 1 0.17 upregulate stage 452404 AW450675 Hs.212709 ESTs 3.63 0.2 upregulate stage 452430 AF118083 Hs.29494 PRO1912 protein 1 0.41 upregulate stage 452436 BE077546 Hs.31447 ESTs 10 0.07 upregulate stage 452457 AW062499 gb: MR0-CT0065-100899-001-d02 CT0065 Homo 1 0.13 upregulate stage 452461 N78223 Hs.108106 transcription factor 8.1 0.06 upregulate stage 452518 AA280722 Hs.24758 ESTs 9.3 0.08 upregulate stage 452519 BE006701 gb: RC0-BN0132-270300-021-a03 BN0132 Homo 1 0.19 upregulate stage 452524 AW136499 Hs.29796 Homo sapiens mRNA; cDNA DKFZp434D1319 (f 1 0.45 upregulate stage 452531 AA429462 Hs.293946 ESTs 2.94 0.22 upregulate stage 452547 AA335295 Hs.74120 adipose specific 2 1.51 0.53 upregulate stage 452560 BE077084 gb: RC5-BT0603-220200-013-C07 BT0603 Homo 5.35 0.11 upregulate stage 452571 W31518 Hs.34665 ESTs 2.55 0.11 upregulate stage 452607 AI160029 Hs.61438 ESTs 4.75 0.11 upregulate stage 452677 BE167202 Hs.212065 ESTs 1 0.32 upregulate stage 452680 AW138410 Hs.45051 ESTs 1 1 upregulate stage 452724 R84810 Hs.30464 cyclin E2 1 0.27 upregulate stage 452738 AL133800 gb: DKFZp761A0614_r1 761 (synonym: hamy2) 3.45 0.15 upregulate stage 452741 BE392914 Hs.30503 Homo sapiens cDNA FLJ11344 fis, clone PL 3.05 0.16 upregulate stage 452747 BE153855 Hs.61460 ESTs 2.54 0.28 upregulate stage 452761 BE244742 Hs.30532 CGI-77 protein 3.85 0.14 upregulate stage 452825 AI921523 gb: wo26d09.x1 NCI_CGAP_Gas4 Homo sapiens 1 1 upregulate stage 452831 AW864089 Hs.135145 ESTs 2.4 0.19 upregulate stage 452846 AA082160 Hs.204295 ESTs 8.9 0.08 upregulate stage 452850 H23230 Hs.22481 ESTs 4.75 0.14 upregulate stage 452859 AI300555 Hs.288158 Homo sapiens cDNA: FLJ23591 fis, clone L 9.15 0.08 upregulate stage 452862 AW378065 Hs.8687 ESTs 5.95 0.07 upregulate stage 452899 M96739 Hs.30956 Human NSCL-1 mRNA sequence 1.04 0.9 upregulate stage 452902 AI926501 Hs.249729 ESTs 6.8 0.1 upregulate stage 452909 NM_015368 Hs.30985 pannexin 1 5.6 0.1 upregulate stage 452931 AW190011 Hs.158006 hypothetical protein 1 0.53 upregulate stage 452934 AA581322 Hs.4213 ESTs 1.44 0.55 upregulate stage 452956 AW003578 Hs.231872 ESTs 1 0.22 upregulate stage 452974 BE090803 Hs.61506 ESTs 1.75 0.18 upregulate stage 453011 N62952 Hs.46473 ESTs 1 1 upregulate stage 453050 AW136479 Hs.224046 ESTs 1 0.39 upregulate stage 453074 AA031813 Hs.271880 ESTs 1 1 upregulate stage 453076 AI978583 Hs.232161 ESTs 3.75 0.14 upregulate stage 453123 AI953718 Hs.221849 ESTs 6.6 0.11 upregulate stage 453134 AA032211 Hs.118493 ESTs 1.68 0.42 upregulate stage 453135 T07866 Hs.31834 Homo sapiens clone 25129 mRNA sequence 1 1 upregulate stage 453137 AI954733 Hs.223640 ESTs 1 0.51 upregulate stage 453144 AW268807 Hs.61646 ESTs 1 0.26 upregulate stage 453153 N53893 Hs.24360 ESTs 5 0.13 upregulate stage 453156 BE463762 Hs.223784 ESTs 2.8 0.15 upregulate stage 453204 R10799 Hs.191990 ESTs 9.5 0.05 upregulate stage 453228 AW628325 Hs.232327 ESTs 1 1 upregulate stage 453274 AA018511 Hs.32769 Homo sapiens mRNA full length insert cDN 1 1 upregulate stage 453293 AA382267 Hs.10653 ESTs 8.4 0.09 upregulate stage 453321 AI984381 Hs.232521 ESTs 6.7 0.1 upregulate stage 453329 T97205 Hs.17998 ESTs 8.9 0.08 upregulate stage 453389 BE273648 Hs.32963 cadherin 6, type 2, K-cadherin (fetal ki 1 0.18 upregulate stage 453437 H10751 Hs.79981 Human clone 23560 mRNA sequence 1 0.83 upregulate stage 453450 AW797627 Hs.89474 ADP-ribosylation factor 6 7.09 0.08 upregulate stage 453459 BE047032 Hs.257789 ESTs 2.35 0.3 upregulate stage 453476 AI640500 Hs.24633 SAM domain, SH3 domain and nuclear local 2.75 0.16 upregulate stage 453651 AA971698 Hs.159397 x 010 protein 8.95 0.08 upregulate stage 453653 AW505554 Hs.300284 ESTs 4.6 0.1 upregulate stage 453775 NM_002916 Hs.35120 replication factor C (activator 1) 4 (37 3.4 0.1 upregulate stage 453776 R15749 Hs.31677 ESTs 1 1 upregulate stage 453846 AL157586 gb: DKFZp761H0216_r1 761 (synonym: hamy2) 1 0.95 upregulate stage 453884 AA355925 Hs.36232 KIAA0186 gene product 10.25 0.06 upregulate stage 453900 AW003582 Hs.226414 ESTs, Weakly similar to ALU8_HUMAN ALU S 4.75 0.12 upregulate stage 453913 AW004683 Hs.233502 ESTs 3.65 0.14 upregulate stage 453925 AW021088 Hs.181614 ESTs 3.7 0.13 upregulate stage 453931 AL121278 Hs.25144 ESTs 3.45 0.18 upregulate stage 453945 NM_005171 Hs.36908 activating transcription factor 1 6.35 0.12 upregulate stage 454032 W31790 Hs.194293 ESTs 6.15 0.07 upregulate stage 454049 AW022885 gb: df45e05.y1 Morton Fetal Cochlea Homo 2.8 0.15 upregulate stage 454069 AW025160 Hs.34161 ESTs, Moderately similar to ALU1_HUMAN A 1 0.32 upregulate stage 454099 AW062974 gb: IL1-ST0041-020899-001-H08 ST0041 Homo 1 1 upregulate stage 454111 AW081681 Hs.269064 ESTs 2.8 0.18 upregulate stage 454219 X75042 Hs.44313 v-rel avian reticuloendotheliosis viral 9.4 0.05 upregulate stage 454259 AL110136 Hs.47679 Homo sapiens mRNA: cDNA DKFZp564I112 (fr 6.2 0.11 upregulate stage 454327 BE064097 gb: QV3-BT0297-231199-020-h08 BT0297 Homo 1 1 upregulate stage 454331 AW372937 gb: QV3-BT0381-161299-042-a09 BT0381 Homo 1 0.43 upregulate stage 454380 AW858722 gb: RC3-CT0347-281199-011-c04 CT0347 Homo 1 0.29 upregulate stage 454524 AW857191 gb: RC2-CT0304-080100-011-b12 CT0304 Homo 10.55 0.08 upregulate stage 454592 AW810112 gb: MR4-ST0124-100400-006-e07 ST0124 Homo 1 0.37 upregulate stage 454648 AW811960 gb: RC2-ST0168-240300-017-f09 ST0168 Homo 1 0.4 upregulate stage 454687 AW814473 gb: MR3-ST0203-010200-109-c11 ST0203 Homo 1 1 upregulate stage 454692 AW813350 gb: MR3-ST0192-100100-024-g07 ST0192 Homo 4.45 0.14 upregulate stage 454702 BE145915 gb: MR0-HT0208-221299-204-h08 HT0208 Homo 9.65 0.08 upregulate stage 454729 AW817003 gb: QV0-ST0247-040100-081-f03 ST0247 Homo 1 0.8 upregulate stage 454789 BE156314 gb: QV0-HT0367-150200-114-d02 HT0367 Homo 1 0.31 upregulate stage 454797 BE161168 gb: PM0-HT0425-170100-002-a10 HT0425 Homo 4.1 0.14 upregulate stage 454863 AW835610 gb: QV4-LT0016-090200-100-c02 LT0016 Homo 1 1 upregulate stage 454893 AW837753 gb: CM1-LT0042-310100-112-g03 LT0042 Homo 4.45 0.18 upregulate stage 454898 AW838125 gb: QV2-LT0051-240300-097-e12 LT0051 Homo 1 1 upregulate stage 454951 AW847464 gb: RC3-CT0208-270999-021-h12 CT0208 Homo 7.4 0.1 upregulate stage 454956 AW847725 gb: IL3-CT0213-180200-041-H10 CT0213 Homo 1 0.23 upregulate stage 455047 AW852530 gb: PM1-CT0243-071099-001-g06 CT0243 Homo 4.25 0.13 upregulate stage 455128 AW861555 gb: RC2-CT0321-110100-013-b05 CT0321 Homo 2.9 0.13 upregulate stage 455201 AW947884 gb: PM1-MT0010-200300-001-g08 MT0010 Homo 3.15 0.16 upregulate stage 455207 AW994394 gb: RC3-BN0036-060400-014-h12 BN0036 Homo 1 0.18 upregulate stage 455331 AW897292 gb: CM0-NN0057-150400-338-b02 NN0057 Homo 1 0.87 upregulate stage 455351 AW901942 gb: QV0-NN1022-100400-190-b04 NN1022 Homo 1 0.39 upregulate stage 455380 BE160188 gb: QV1-HT0413-010200-059-g05 HT0413 Homo 1.96 0.33 upregulate stage 455414 AW936969 gb: RC1-DT0029-160200-013-f10 DT0029 Homo 1 1 upregulate stage 455428 AW938204 gb: QV0-DT0048-170200-124-f01 DT0048 Homo 1 0.67 upregulate stage 455573 BE004988 gb: MR2-BN0114-100500-020-b04 BN0114 Homo 1 1 upregulate stage 455586 BE070794 gb: RC3-BT0501-130100-011-h02 BT0501 Homo 1 1 upregulate stage 455595 BE008343 gb: CM0-BN0154-080400-325-g10 BN0154 Homo 1 1 upregulate stage 455610 BE011703 gb: CM3-BN0223-100500-177-h09 BN0223 Homo 6.05 0.12 upregulate stage 455647 BE064415 gb: RC4-BT0311-241199-012-b03 BT0311 Homo 1 1 upregulate stage 455650 BE064655 gb: RC1-BT0313-301299-012-c09 BT0313 Homo 1 0.67 upregulate stage 455657 BE065209 gb: RC1-BT0314-310300-015-b12 BT0314 Homo 1.87 0.4 upregulate stage 455669 BE065803 gb: RC2-BT0318-241199-011-g02 BT0318 Homo 2.85 0.2 upregulate stage 455678 BE066007 gb: RC3-BT0319-120200-014-d09 BT0319 Homo 2.8 0.18 upregulate stage 455761 BE080895 gb: QV1-BT0631-280200-084-e01 BT0631 Homo 1 0.48 upregulate stage 455799 BE169911 Hs.14570 Homo sapiens cDNA: FLJ22530 fis, clone H 5.7 0.11 upregulate stage 455831 BE144966 gb: RC6-HT0187-201099-031-c04 HT0187 Homo 1 1 upregulate stage 455874 BE152283 gb: QV4-HT0316-191199-039-b01 HT0316 Homo 1 0.67 upregulate stage 455903 BE155185 gb: PM1-HT0350-231299-005-g05 HT0350 Homo 1 0.31 upregulate stage 455938 BE159432 gb: MR0-HT0407-140200-009-e06 HT0407 Homo 2.4 0.15 upregulate stage 455950 BE161004 gb: PM0-HT0425-170100-002-h03 HT0425 Homo 1 0.44 upregulate stage 455951 BE161001 gb: PM0-HT0425-170100-002-f10 HT0425 Homo 1 0.38 upregulate stage 455965 BE167014 gb: CM2-HT0502-140200-088-d08 HT0502 Homo 1 1 upregulate stage 455981 BE177000 gb: RC4-HT0587-070400-015-b07 HT0587 Homo 1 0.57 upregulate stage 456034 AW450979 gb: UI-H-BI3-ala-a-12-0-UI.s1 NCI_CGAP_Su 8.29 0.05 upregulate stage 456046 R51494 Hs.71818 ESTs 3.15 0.17 upregulate stage 456122 R11813 gb: yf53a04.r1 Soares infant brain 1NIB H 1.3 0.31 upregulate stage 456212 N51636 gb: yy87b01.s1 Soares_multiple_sclerosis_(—) 4.45 0.14 upregulate stage 456265 AI968210 Hs.173623 ESTs 1 0.34 upregulate stage 456285 R67585 Hs.268748 ESTs 1 0.83 upregulate stage 456320 AI734064 Hs.136212 ESTs 1 1 upregulate stage 456353 AI042330 Hs.87128 ESTs, Weakly similar to similar to YBS4 5.15 0.11 upregulate stage 456486 AA676544 Hs.171545 HIV-1 Rev binding protein 1 0.27 upregulate stage 456493 AA261830 gb: zs17g09.r1 NCI_CGAP_GCB1 Homo sapiens 1 0.8 upregulate stage 456504 AK000532 Hs.98491 Homo sapiens cDNA FLJ20525 fis, clone KA 1 0.29 upregulate stage 456508 AA502764 Hs.123469 ESTs, Weakly similar to AF208855 1 BM-01 17.7 0.05 upregulate stage 456519 AA279917 Hs.88678 ESTs, Weakly similar to Unknown [H. sapie 2.3 0.18 upregulate stage 456536 AW135986 Hs.257859 ESTs 9.45 0.06 upregulate stage 456592 R91600 gb: yq10c02.r1 Soares fetal liver spleen 4.5 0.14 upregulate stage 456621 T35958 Hs.107614 DKFZP564I1171 protein 1 0.2 upregulate stage 456682 AW500321 Hs.246766 Homo sapiens cDNA FLJ12360 fis, clone MA 1 0.24 upregulate stage 456726 H43102 Hs.144183 ESTs 1 0.69 upregulate stage 456736 AW248217 Hs.1619 achaete-scute complex (Drosophila) homol 0.89 0.91 upregulate stage 456786 AK002084 Hs.132851 hypothetical protein FLJ11222 3.2 0.13 upregulate stage 456800 AL118754 gb: DKFZp761P1910_r1 761 (synonym: hamy2) 1 0.69 upregulate stage 456823 AL161979 Hs.146128 Homo sapiens mRNA; cDNA DKFZp761G1823 (f 8.95 0.07 upregulate stage 456844 AI264155 Hs.152981 CDP-diacylglycerol synthase (phosphatida 5.55 0.1 upregulate stage 456999 AA319798 Hs.172247 eukaryotic translation elongation factor 11.3 0.07 upregulate stage 457015 AA688058 Hs.261544 ESTs 9.25 0.08 upregulate stage 457030 AI301740 Hs.173381 dihydropyrimidinase-like 2 2.65 0.17 upregulate stage 457158 AA135370 Hs.188536 Homo sapiens cDNA: FLJ21635 fis, clone C 1 1 upregulate stage 457190 AI753247 Hs.29643 Homo sapiens cDNA FLJ13103 fis, clone NT 1 0.87 upregulate stage 457309 AF131843 Hs.239340 Homo sapiens clone 24987 mRNA sequence 2.6 0.15 upregulate stage 457376 AI026984 Hs.293662 ESTs 1 1 upregulate stage 457402 AW452648 Hs.149342 activation-induced cytidine deaminase 2.9 0.16 upregulate stage 457435 AW972024 Hs.154645 ESTs, Weakly similar to tyrosine kinase 1 0.36 upregulate stage 457437 AW969732 gb: EST381810 MAGE resequences, MAGK Homo 2.5 0.14 upregulate stage 457465 AW301344 Hs.195969 ESTs 6.3 0.1 upregulate stage 457467 AW974815 Hs.292786 ESTs 1 1 upregulate stage 457474 AW972935 gb: EST385031 MAGE resequences, MAGM Homo 1 0.29 upregulate stage 457530 AW973713 Hs.293596 ESTs 1 0.39 upregulate stage 457637 AI288373 Hs.149875 ESTs 1 1 upregulate stage 457643 AI375499 Hs.27379 ESTs 3.25 0.19 upregulate stage 457650 AA649162 Hs.236456 ESTs 8.9 0.08 upregulate stage 457661 AA917801 Hs.128596 ESTs 0.96 0.9 upregulate stage 457692 AA744046 Hs.133350 ESTs 1 1 upregulate stage 457857 AW814892 Hs.273104 ESTs 1 1 upregulate stage 457892 AA744389 gb: ny51e10.s1 NCI_CGAP_Pr18 Homo sapiens 8.7 0.06 upregulate stage 457902 AI624876 Hs.75862 MAD (mothers against decapentaplegic, Dr 2.2 0.21 upregulate stage 457943 AA765625 Hs.155690 ESTs 3.55 0.1 upregulate stage 457948 AI498640 Hs.159354 ESTs 2.65 0.19 upregulate stage 457964 NM_016353 Hs.5943 rec 1.5 0.17 upregulate stage 458004 AW976942 Hs.153057 ESTs 1 0.87 upregulate stage 458027 L49054 Hs.85195 ESTs, Highly similar to t(3; 5)(q25.1; p34 3.45 0.12 upregulate stage 458079 AI796870 Hs.54277 ESTs 11.5 0.05 upregulate stage 458158 AW296778 Hs.300357 ESTs, Highly similar to dJ416F21.2 [H. sa 1 1 upregulate stage 458171 AI420016 Hs.192090 ESTs 0.69 1.09 upregulate stage 458172 BE007237 gb: PM0-BN0139-050500-003-g09 BN0139 Homo 3 0.16 upregulate stage 458186 AA904244 Hs.153205 ESTs 4.6 0.15 upregulate stage 458242 BE299588 Hs.28465 Homo sapiens cDNA: FLJ21869 fis, clone H 3.1 0.16 upregulate stage 458270 T66139 Hs.113631 ESTs 1 0.67 upregulate stage 458282 AA984075 Hs.22580 alkylglycerone phosphate synthase 1 1 upregulate stage 458287 AA987556 Hs.12867 ESTs 5.05 0.13 upregulate stage 458580 Z30118 Hs.293788 ESTs, Moderately similar to unnamed prot 1 0.28 upregulate stage 458586 AI683479 Hs.65390 ESTs 8.2 0.07 upregulate stage 458608 AW444662 Hs.202247 ESTs 1 0.27 upregulate stage 458632 AI744445 Hs.24650 Homo sapiens cDNA FLJ13047 fis, clone NT 1.05 0.23 upregulate stage 458663 AV658444 Hs.280776 Homo sapiens cDNA FLJ13684 fis, clone PL 5.05 0.13 upregulate stage 458670 AI301987 Hs.233398 ESTs 8.9 0.08 upregulate stage 458680 N73773 Hs.282950 ESTs 1 0.23 upregulate stage 458720 AV662037 Hs.124740 ESTs 1 0.3 upregulate stage 458722 AA741545 Hs.282832 ESTs 3.2 0.11 upregulate stage 458747 BE618395 Hs.257391 ESTs, Weakly similar to GTPase-activatin 3.3 0.14 upregulate stage 458760 AI498631 Hs.111334 ferritin, light polypeptide 11 0.07 upregulate stage 458781 AI444821 gb: RET4B7 sabtracted retina cDNA library 6.05 0.12 upregulate stage 458801 N98648 Hs.276860 ESTs 4.45 0.13 upregulate stage 458880 AA046742 gb: zf48c09.r1 Soares retina N2b4HR Homo 9 0.08 upregulate stage 458886 AI247487 Hs.103277 ESTs 1 0.3 upregulate stage 458946 AA009716 Hs.42311 ESTs 8.7 0.08 upregulate stage 459023 AW968226 Hs.60798 ESTs 2.95 0.15 upregulate stage 459028 AI940577 gb: IL5-HT0009-120799-001-G07 HT0009 Homo 2.6 0.17 upregulate stage 459030 H86658 Hs.107699 ESTs, Weakly similar to hypothetical pro 1 1 upregulate stage 459058 H85939 Hs.209605 ESTs 1 1 upregulate stage 459128 AI902169 gb: IL-BT002-221198-051 B1002 Homo sapien 1 0.26 upregulate stage 459182 BE178517 gb: PM1-HT0603-090300-001-e09 HT0603 Homo 1 1 upregulate stage 459204 AW194601 Hs.13219 ESTs 2.85 0.16 upregulate stage 459256 AW967468 Hs.99821 Homo sapiens mRNA; cDNA DKFZp564C046 (fr 10.65 0.07 upregulate stage 459319 NM_000059 gb: Homo sapiens breast cancer 2, early o 1 1 upregulate stage 459395 Z30300 Hs.281935 ESTs 4.05 0.14 upregulate stage 459459 AA460445 gb: zx66h11. r1 Soares_total_fetes_Nb2HF8_(—) 4.8 0.13 upregulate stage 459464 AA854847 gb: aj77h02.s1 Soares_parathyroid_tumor_N 1 0.38 upregulate stage 459492 AL118619 gb: DKFZp761E2410_r1 761 (synonym: hamy2) 1 1 upregulate stage 459530 AW770811 gb: hn49d07.x1 NCI_CGAP_Co17 Homo sapiens 1 1 upregulate stage 401519 12.65 0.06 upregulate stage 402474 25.55 0.03 upregulate stage 402727 16.25 0.05 upregulate stage 405411 12.95 0.05 upregulate stage 406636 L12064 gb: Homo sapiens (clone WR4.12VL) anti-th 14.42 0.03 upregulate stage 406685 M18728 gb: Human nonspecific crossreacting antig 15.75 0.03 upregulate stage 407151 H25836 Hs.301527 ESTs, Moderately similar to unknown [H.s 16.3 0.04 upregulate stage 407242 M18728 gb: Human nonspecific crossreacting antig 12.56 0.03 upregulate stage 407347 AA829847 Hs.167347 ESTs, Weakly similar to ALU8_HUMAN ALU S 12.91 0.06 upregulate stage 407796 AA195509 Hs.272239 lymphocyte activation-associated protein 14.2 0.06 upregulate stage 408243 Y00787 Hs.624 interleukin 8 18.52 0.02 upregulate stage 408380 AF123050 Hs.44532 diubiquitin 16 0.03 upregulate stage 408618 AK000637 Hs.46624 HSPC043 protein 12.6 0.06 upregulate stage 408741 M73720 Hs.646 carboxypeptidase A3 (mast cell) 15.5 0.03 upregulate stage 409417 AA156247 Hs.295908 ESTs, Weakly similar to ALU7_HUMAN ALU S 12.55 0.04 upregulate stage 410315 AI638871 Hs.17625 ESTs 14 0.05 upregulate stage 410324 AW292539 Hs.30177 ESTs 15.65 0.05 upregulate stage 412420 AL035668 Hs.73853 bone morphogenetic protein 2 12.6 0.05 upregulate stage 412490 AW803564 Hs.288850 Homo sapiens cDNA: FLJ22528 fis, clone H 16.45 0.03 upregulate stage 413281 AA861271 Hs.34396 ESTs 12.95 0.04 upregulate stage 414004 AA737033 Hs.7155 ESTs, Weakly similar to 2115357A TYKi pr 15.25 0.04 upregulate stage 414161 AA136106 Hs.184852 KIAA1553 protein 13.25 0.06 upregulate stage 414217 AI309298 Hs.279898 Homo sapiens cDNA: FLJ23165 fis, clone L 12.5 0.05 upregulate stage 414219 W20010 Hs.75823 ALL1-fused gene from chromosome 1q 12.71 0.05 upregulate stage 414493 AL133921 Hs.76272 retinoblastoma-binding protein 2 13.05 0.05 upregulate stage 414522 AW518944 Hs.76325 Homo sapiens cDNA: FLJ23125 fis, clone L 30.45 0.02 upregulate stage 414602 AW630088 Hs.76550 Homo sapiens mRNA; cDNA DKFZp564B1264 (f 29 0.02 upregulate stage 414761 AU077228 Hs.77256 enhancer of zeste (Drosophila) homolog 2 13.2 0.05 upregulate stage 416114 AI695549 Hs.183868 glucuronidase, beta 14.7 0.04 upregulate stage 416179 R19015 Hs.79067 MAD (mothers against decapentaplegic, Dr 13 0.06 upregulate stage 416391 AI878927 Hs.79284 mesoderm specific transcript (mouse) hom 13.3 0.04 upregulate stage 416815 U41514 Hs.80120 UDP-N-acetyl-alpha-D-galactosamine: polyp 15.55 0.04 upregulate stage 416980 AA381133 Hs.80684 high-mobility group (nonhistone chromoso 23.85 0.03 upregulate stage 417258 N58885 Hs.294040 ESTs 15.05 0.06 upregulate stage 417274 N92036 Hs.81848 RAD21 (S. pombe) homolog 23.05 0.04 upregulate stage 417353 AA375752 Hs.76362 general transcription factor IIA, 2 (12 k 13 0.06 upregulate stage 417615 BE548641 Hs.82314 hypoxanthine phosphoribosyltransferase 1 19.45 0.04 upregulate stage 417696 BE241624 Hs.82401 CD69 antigen (p60, early T-cell activati 12.45 0.03 upregulate stage 417777 AI823763 Hs.7055 ESTs 12.6 0.06 upregulate stage 417821 BE245149 Hs.82643 protein tyrosine kinase 9 20.8 0.04 upregulate stage 417928 AA209344 Hs.282973 ESTs 14.65 0.05 upregulate stage 418699 BE539639 Hs.173030 ESTs, Weakly similar to ALU8_HUMAN ALU S 13 0.05 upregulate stage 418791 AA935633 Hs.194628 ESTs 12.95 0.06 upregulate stage 419145 N99638 gb: za39g11.r1 Soares fetal liver spleen 13.2 0.05 upregulate stage 421878 AA299652 Hs.111496 Homo sapiens cDNA FLJ11643 fis, clone HE 12.6 0.05 upregulate stage 422150 AI867118 Hs.2953 ribosomal protein S15a 13.55 0.05 upregulate stage 422363 T55979 Hs.115474 replication factor C (activator 1) 3 (38 15.7 0.05 upregulate stage 424673 AA345051 Hs.294092 ESTs 16.9 0.04 upregulate stage 424848 AI263231 Hs.145607 ESTs 15.2 0.05 upregulate stage 424865 AF011333 Hs.153563 lymphocyte antigen 75 12.85 0.04 upregulate stage 425053 AF046024 Hs.154320 ubiquitin-activating enzyme E1C (homolog 13.25 0.06 upregulate stage 425787 AA363867 Hs.155029 ESTs 17.55 0.05 upregulate stage 426252 BE176980 Hs.28917 ESTs 12.95 0,05 upregulate stage 426329 AL389951 Hs.271623 nucleoporin 50 kD 13.8 0.05 upregulate stage 427127 AW802282 Hs.22265 pyruvate dehydrogenase phosphatase 13.85 0.05 upregulate stage 427351 AW402593 Hs.123253 Homo sapiens cDNA: FLJ22009 fis, clone H 12.8 0.06 upregulate stage 427979 BE379776 Hs.181309 proteasome (prosome, macropain) subunit, 16.95 0.05 upregulate stage 428044 AA093322 Hs.182225 RNA binding motif protein 3 14.65 0.05 upregulate stage 428428 AL037544 Hs.184298 cyclin-dependent kinase 7 (homolog of Xe 17.15 0.05 upregulate stage 428840 M15990 Hs.194148 v-yes-1 Yamaguchi sarcoma viral oncogene 16.8 0.05 upregulate stage 430191 AI149880 Hs.188809 ESTs 14.5 0.05 upregulate stage 430589 AJ002744 Hs.246315 UDP-N-acetyl-alpha-D-galactosamine: polyp 14.9 0.05 upregulate stage 430853 AI734179 Hs.105676 ESTs 13.55 0.06 upregulate stage 431049 AA846576 Hs.103267 hypothetical protein FLJ22548 similar to 16.2 0.04 upregulate stage 431211 M86849 Hs.5566 gap junction protein, beta 2, 26 kD (conn 27 0.01 upregulate stage 431341 AA307211 Hs.251531 proteasome (prosome, macropain) subunit, 13.45 0.06 upregulate stage 431639 AK000680 Hs.266175 phosphoprotein associated with GEMs 21.2 0.03 upregulate stage 431770 BE221880 Hs.268555 5′-3′ exoribonuclease 2 13.05 0.06 upregulate stage 431863 AA188185 Hs.271871 spindlin 15.6 0.05 upregulate stage 434263 N34895 Hs.44648 ESTs 14.25 0.05 upregulate stage 434651 BE616902 Hs.285313 core promoter element binding protein 17.95 0.05 upregulate stage 436286 AA804442 Hs.3459 Homo sapiens cDNA: FLJ22003 fis, clone H 14.95 0.05 upregulate stage 436385 BE551618 Hs.144097 ESTs 13.85 0.06 upregulate stage 437192 AW975786 Hs.75355 ubiquitin-conjugating enzyme E2N (homolo 12.75 0.06 upregulate stage 438000 AI825880 Hs.5985 non-kinase Cdc42 effector protein SPEC2 15.3 0.04 upregulate stage 439941 AI392640 Hs.18272 ESTs 17.42 0.05 upregulate stage 440086 NM_005402 Hs.288757 v-ral simian leukemia viral oncogene hom 12.59 0.05 upregulate stage 440116 AI798851 Hs.9403 ESTs 14.5 0.05 upregulate stage 441020 W79283 Hs.35962 ESTs 12.4 0.04 upregulate stage 441633 AW958544 Hs.112242 ESTs 15.85 0.03 upregulate stage 441980 AK001441 Hs.8055 hypothetical protein FLJ10579 13.6 0.05 upregulate stage 442043 BE567620 Hs.99210 ESTs 12.5 0.06 upregulate stage 442053 R35343 Hs.24968 Human DNA sequence from clone RP1-233G16 12.65 0.06 upregulate stage 442271 AF000652 Hs.8180 syndecan binding protein (syntenin) 15.15 0.05 upregulate stage 443303 U67319 Hs.9216 caspase 7, apoptosis-related cysteine pr 13.4 0.05 upregulate stage 445033 AV652402 Hs.155145 ESTs 13.3 0.05 upregulate stage 446619 AU076643 Hs.313 secreted phosphoprotein 1 (osteopontin, 30.5 0.02 upregulate stage 446847 T51454 Hs.82845 Human clone 23815 mRNA sequence 13.8 0.04 upregulate stage 446921 AB012113 Hs.16530 small inducible cytokine subfamily A (Cy 15.15 0.04 upregulate stage 448712 W01046 Hs.181634 Homo sapiens cDNA: FLJ23602 fis, clone L 13.2 0.05 upregulate stage 448772 AW390822 Hs.24639 ESTs 12.75 0.06 upregulate stage 448926 AI798164 Hs.140903 ESTs, Moderately similar to neuronal thr 13.35 0.06 upregulate stage 449962 AA004879 No.187820 ESTs 12.79 0.05 upregulate stage 450139 AK001838 Hs.296323 Homo sapiens cDNA FLJ10976 fis, clone PL 14.76 0.06 upregulate stage 451035 AU076785 Hs.430 plastin 1 (I isoform) 17.65 0.04 upregulate stage 451334 AI122691 Hs.13268 ESTs 14.7 0.05 upregulate stage 452567 D87120 Hs.29882 predicted osteoblast protein 12.45 0.06 upregulate stage 453258 AW293134 Hs.32597 ring finger protein (C3H2C3 type) 6 13.4 0.05 upregulate stage 453331 AI240665 Hs.8895 ESTs 12.6 0.05 upregulate stage 400365 Y10259 Hs.274501 H. sapiens ACTH receptor mRNA 3′UTR 2.2 0.17 upregulate stage 401256 2 0.16 upregulate stage 402075 1 0.1 upregulate stage 403029 1.75 0.16 upregulate stage 403047 3.3 0.1 upregulate stage 403426 1.7 0.18 upregulate stage 403754 2.8 0.12 upregulate stage 403822 1.2 0.14 upregulate stage 407835 AK002081 Hs.40337 hypothetical protein 1.9 0.15 upregulate stage 407980 AA046309 gb: zf12f01.s1 Soares_fetal_heart_NbHH19W 1.35 0.1 upregulate stage 408081 AW451597 Hs.167409 ESTs 2.3 0.18 upregulate stage 408408 AF070571 Hs.44690 Homo sapiens clone 24739 mRNA sequence 1.65 0.12 upregulate stage 408920 AL120071 Hs.48998 fibronectin leucine rich transmembrane p 1 0.2 upregulate stage 409810 AW500895 gb: UI-HF-BP0p-air-a-02-0-UI.r1 NIH_MGC_5 2.25 0.2 upregulate stage 410094 BE147897 Hs.58593 general transcription factor IIF, polype 4.05 0.12 upregulate stage 410603 AA086219 Hs.68714 ESTs 1.9 0.18 upregulate stage 410763 AF279145 Hs.8966 tumor endothelial marker 8 4.15 0.13 upregulate stage 411418 BE241870 gb: TCAAP2E0047 Pediatric acute myelogeno 1.6 0.22 upregulate stage 411691 AW857199 gb: RC2-CT0304-080100-011-f06 CT0304 Homo 1.45 0.24 upregulate stage 411750 BE562298 Hs.71827 KIAA0112 protein; homolog of yeast ribos 2.2 0.2 upregulate stage 411880 AW872477 gb: hm30f03.x1 NCI_CGAP_Thy4 Homo sapiens 1.75 0.06 upregulate stage 412102 H56435 Hs.75935 KIAA0077 protein 1.7 0.2 upregulate stage 412303 AW936336 gb: QV4-DT0021-281299-070-g11 DT0021 Homo 1 0.17 upregulate stage 412312 AW936686 gb: PM2-DT0023-080300-004-g01 DT0023 Homo 3.4 0.16 upregulate stage 412598 AI681997 Hs.107057 ESTs 2.25 0.2 upregulate stage 413383 AI128978 Hs.154706 Homo sapiens cDNA FLJ13594 fis, clone PL 2.3 0.17 upregulate stage 413406 AW452823 Hs.135268 ESTs 3.52 0.14 upregulate stage 413618 BE154078 gb: PM0-HT0339-200400-010-F04 HT0339 Homo 1 0.18 upregulate stage 416661 AA634543 Hs.79440 IGF-II mRNA-binding protein 3 1.05 0.12 upregulate stage 417708 N74392 Hs.50495 ESTs 2 0.16 upregulate stage 417974 AA210765 gb: zr50c06.r1 NCI_CGAP_GCB1 Homo sapiens 1.7 0.18 upregulate stage 418604 AA225632 Hs.190016 ESTs 3.75 0.13 upregulate stage 418631 AA225921 Hs.115105 ESTs 1.75 0.2 upregulate stage 418830 BE513731 Hs.88959 Human DNA sequence from clone 967N21 on 3.8 0.09 upregulate stage 418893 N32264 Hs.44330 ESTs 2.35 0.14 upregulate stage 418950 T78517 Hs.13941 ESTs 2.15 0.19 upregulate stage 419044 AI799135 Hs.87164 Homo sapiens cDNA FLJ14001 fis, clone Y7 1.85 0.15 upregulate stage 420082 N43741 Hs.203148 ESTs 3.8 0.14 upregulate stage 420653 AI224532 Hs.88550 ESTs 2.05 0.16 upregulate stage 421112 AW243875 Hs.265427 ESTs 3.3 0.13 upregulate stage 421683 AI147535 Hs.143769 ESTs 2 0.14 upregulate stage 421799 AW972292 Hs.292998 ESTs 2.35 0.15 upregulate stage 422177 AA720878 Hs.201375 ESTs 3.3 0.14 upregulate stage 422429 AA310527 gb: EST181333 Jurkat T-cells V Home sapie 3.45 0.12 upregulate stage 422956 BE545072 Hs.122579 hypothetical protein FLJ10461 2.15 0.11 upregulate stage 424026 AI798295 Hs.123218 ESTs 3.8 0.14 upregulate stage 425650 NM_001944 Hs.1925 desmoglein 3 (pemphigus vulgaris antigen 1 0.09 upregulate stage 425761 AW664214 Hs.196729 ESTs 2 0.19 upregulate stage 426427 M86699 Hs.169840 TTK protein kinase 2.1 0.16 upregulate stage 427558 D49493 Hs.2171 growth differentiation factor 10 2.15 0.14 upregulate stage 427635 BE397988 Hs.179982 tumor protein p53-binding protein 3.9 0.11 upregulate stage 428766 AA477989 Hs.98800 ESTs 3.8 0.12 upregulate stage 429761 AI276780 Hs.135173 ESTs 1.9 0.17 upregulate stage 430132 AA204686 Hs.234149 hypothetical protein FLJ20647 5.05 0.11 upregulate stage 430253 AK001514 Hs.236844 hypothetical protein FLJ10652 3.55 0.15 upregulate stage 430388 AA356923 Hs.240770 nuclear cap binding protein subunit 2, 2 2.5 0.14 upregulate stage 431187 AW971146 Hs.293187 ESTs 3.95 0.13 upregulate stage 431364 AW971382 Hs.294016 ESTs, Weakly similar to alpha-1 (XVIII) c 1.8 0.15 upregulate stage 431401 AA504626 Hs.105735 ESTs 1.65 0.22 upregulate stage 431419 AL041844 Hs.277522 ESTs, Weakly similar to FYVE finger-cont 1.45 0.16 upregulate stage 432361 AI378562 Hs.159585 ESTs 2.15 0.14 upregulate stage 432810 AA863400 Hs.23054 ESTs 3.7 0.08 upregulate stage 432926 AA570416 Hs.32271 hypothetical protein FLJ10846 2 0.2 upregulate stage 433108 AB002446 gb: Homo sapiens mRNA from chromosome 5q2 2.35 0.14 upregulate stage 434153 AF118072 Hs.283916 Homo sapiens PRO1716 mRNA, complete cds 1 0.14 upregulate stage 435202 AI971313 Hs.170204 KIAA0551 protein 1.25 0.16 upregulate stage 435313 AI769400 Hs.189729 ESTs 2 0.18 upregulate stage 435359 T60843 Hs.189679 ESTs 3.6 0.11 upregulate stage 435488 H57954 Hs.34394 ESTs 2.2 0.22 upregulate stage 436583 AW293909 Hs.156935 ESTs 1.4 0.19 upregulate stage 436862 AI821940 Hs.264622 ESTs, Moderately similar to ALU8_HUMAN A 3.2 0.12 upregulate stage 437485 AI149570 Hs.127363 ESTs 2.05 0.22 upregulate stage 437854 AL119723 gb: DKFZp761A2124_r1 761 (synonym: hamy2) 2.75 0.15 upregulate stage 438316 AA789249 gb: aj27g08.s1 Soares_testis_NHT Homo sap 2.45 0.13 upregulate stage 438390 AI422017 gb: tt45f12.x1 NCI_CGAP_Brn23 Homo sapien 3.1 0.13 upregulate stage 438915 AA280174 Hs.23282 ESTs 1.35 0.12 upregulate stage 439983 AA858394 Hs.117955 ESTs 4 0.13 upregulate stage 442048 AA974603 gb: op34f05.s1 Soares_NFL_T_GBC_S1 Homo s 5.55 0.09 upregulate stage 442369 AI565071 Hs.159983 ESTs 3.85 0.14 upregulate stage 442748 AI016713 Hs.135787 ESTs 2.35 0.23 upregulate stage 443717 BE163884 Hs.282331 ESTs 2.5 0.18 upregulate stage 445935 AA287537 Hs.167585 ESTs 1 0.2 upregulate stage 446078 AI339982 Hs.156061 ESTs 2.25 0.24 upregulate stage 446139 H77395 Hs.39749 ESTs 2.15 0.18 upregulate stage 446183 AA354991 Hs.14222 Homo sapiens mRNA; cDNA DKFZp761P019 (fr 3.45 0.14 upregulate stage 448253 H25899 Hs.201591 ESTs 1.65 0.18 upregulate stage 448956 AK001674 Hs.22630 cofactor required for Sp1 transcriptiona 2.2 0.14 upregulate stage 449199 AI990122 Hs.196988 ESTs 1.25 0.23 upregulate stage 449558 AA001765 Hs.157079 KIAA1227 protein 1 0.16 upregulate stage 449576 AW014631 Hs.225068 ESTs 2.3 0.19 upregulate stage 449859 T98077 Hs.18214 ESTs 6.3 0.07 upregulate stage 450434 AA166950 Hs.18645 ESTs, Weakly similar to partial CDS [C.e 1.65 0.22 upregulate stage 450625 AW970107 gb: EST382188 MAGE resequences, MAGK Homo 1.35 0.19 upregulate stage 451337 AI400209 Hs.60787 ESTs 1.6 0.16 upregulate stage 451686 AA059246 Hs.110293 ESTs 3.4 0.14 upregulate stage 452079 AA830908 Hs.15825 ESTs 1.9 0.23 upregulate stage 452220 BE158006 Hs.212296 ESTs 3.1 0.17 upregulate stage 453918 AW005123 Hs.231975 ESTs 1 0.21 upregulate stage 455350 AW901809 gb: QV0-NN1020-170400-195-h02 NN1020 Homo 2 0.2 upregulate stage 456511 AA282330 Hs.145668 ESTs 1.15 0.12 upregulate stage 456986 D38299 Hs.170917 prostaglandin E receptor 3 (subtype EP3) 1.65 0.18 upregulate stage 457427 AW971287 gb: EST383376 MAGE resequences, MAGL Homo 2.35 0.16 upregulate stage 400296 AA305627 Hs.139336 ATP-binding cassette, sub-family C (CFTR 1 0.27 upregulate stage 400409 AF153341 Hs.283954 Homo sapiens winged helix/forkhead trans 2.33 0.2 upregulate stage 400471 7.45 0.09 upregulate stage 400641 0.71 0.31 upregulate stage 400749 7.25 0.1 upregulate stage 400751 5.35 0.09 upregulate stage 400761 5.9 0.1 upregulate stage 400843 5.85 0.07 upregulate stage 401045 2.42 0.17 upregulate stage 401049 1.2 0.19 upregulate stage 401192 2.47 0.3 upregulate stage 401203 6.73 0.08 upregulate stage 401205 6.63 0.1 upregulate stage 401276 6.95 0.1 upregulate stage 401561 2.2 0.13 upregulate stage 401604 1 0.19 upregulate stage 402245 7.65 0.09 upregulate stage 402296 1 0.33 upregulate stage 402530 5.1 0.13 upregulate stage 402812 1.65 0.17 upregulate stage 402820 1 0.34 upregulate stage 402892 1 1 upregulate stage 403344 6.5 0.08 upregulate stage 404156 3.7 0.11 upregulate stage 404290 4.45 0.09 upregulate stage 404538 8.38 0.09 upregulate stage 404676 8.3 0.09 upregulate stage 404977 0.9 0.35 upregulate stage 405033 1.52 0.31 upregulate stage 405109 N47812 Hs.81360 CGI-35 protein 6.2 0.1 upregulate stage 405654 1.95 0.06 upregulate stage 406081 3 0.07 upregulate stage 406270 6.09 0.13 upregulate stage 406399 1.55 0.41 upregulate stage 406475 6.2 0.12 upregulate stage 406485 1 0.48 upregulate stage 406741 AA058357 Hs.74466 carcinoembryonic antigen-related cell ad 5.4 0.07 upregulate stage 406867 AA157857 Hs.182265 keratin 19 2.26 0.37 upregulate stage 407173 T64349 gb: yc10d08.s1 Stratagene lung (937210) H 3.35 0.11 upregulate stage 407230 AA157857 Hs.182265 keratin 19 2.15 0.38 upregulate stage 407266 AJ235664 gb: Homo sapiens mRNA for immunoglobulin 2.1 0.09 upregulate stage 407783 AW996872 Hs.172028 a disintegrin and metalloproteinase doma 3.25 0.11 upregulate stage 407825 NM_006152 Hs.40202 lymphoid-restricted membrane protein 6.25 0.08 upregulate stage 407870 AB032990 Hs.40719 hypothetical protein KIAA1164 4.5 0.12 upregulate stage 407877 AW016811 Hs.234478 Homo sapiens cDNA: FLJ22648 fis, clone H 3.3 0.15 upregulate stage 407968 NM_004863 Hs.59403 serine palmitoyltransferase, long chain 7.35 0.1 upregulate stage 408162 AA993833 Hs.118527 ESTs 6.2 0.09 upregulate stage 408363 NM_003389 Hs.44396 coronin, actin-binding protein, 2A 5.36 0.14 upregulate stage 408576 NM_003542 Hs.46423 H4 histone family, member G 7.28 0.1 upregulate stage 408673 BE208517 Hs.184109 ribosomal protein L37a 2.53 0.24 upregulate stage 408684 R61377 Hs.12727 hypothetical protein FLJ21610 1 0.3 upregulate stage 409361 NM_005982 Hs.54416 sine oculis homeobox (Drosophila) homolo 7.7 0.06 upregulate stage 409592 BE280951 Hs.55058 EH-domain containing 4 3.95 0.1 upregulate stage 409744 AW675258 Hs.56265 Homo sapiens mRNA; cDNA DKFZp586P2321 (f 1.55 0.16 upregulate stage 410141 R07775 Hs.287657 Homo sapiens cDNA: FLJ21291 fis, clone C 4.1 0.18 upregulate stage 410232 AW372451 Hs.61184 CGI-79 protein 3.65 0.14 upregulate stage 410269 AW613597 gb: hh79g12.x1 NCI_CGAP_GU1 Homo sapiens 7.55 0.09 upregulate stage 410297 AA148710 Hs.159441 ESTs 3.8 0.1 upregulate stage 410337 M83822 Hs.62354 cell division cycle 4-like 4.35 0.19 upregulate stage 410418 D31382 Hs.63325 transmembrane protease, serine 4 1.42 0.4 upregulate stage 410541 AA065003 Hs.64179 hypothetical protein 1.61 0.48 upregulate stage 410724 AW799269 gb: RC0-UM0051-210300-012-f01 UM0051 Homo 6.65 0.12 upregulate stage 410785 AW803341 gb: IL2-UM0079-090300-050-D03 UM0079 Homo 1.4 0.16 upregulate stage 410968 AA199907 Hs.67397 homeo box A1 3.05 0.1 upregulate stage 411162 AW819944 gb: QV0-ST0294-240300-172-e03 ST0294 Homo 2 0.23 upregulate stage 411173 R81571 gb: yj02h10.r1 Soares placenta Nb2HP Homo 7.2 0.1 upregulate stage 411243 AB039886 Hs.69319 CA11 0.36 0.93 upregulate stage 411407 R00903 gb: ye87a07.r1 Soares fetal liver spleen 8 0.09 upregulate stage 411704 AI499220 Hs.71573 hypothetical protein FLJ10074 1.75 0.22 upregulate stage 412121 AB033061 Hs.73287 KIAA1235 protein 5.3 0.11 upregulate stage 412123 BE251328 Hs.73291 hypothetical protein FLJ10881 6.9 0.1 upregulate stage 412129 M21984 Hs.73454 troponin T3, skeletal, fast 0.27 1.06 upregulate stage 412354 AW939148 gb: QV1-DT0069-110200-067-d06 DT0069 Homo 6.9 0.11 upregulate stage 412610 X90908 Hs.74126 fatty acid binding protein 6, ileal (gas 2.88 0.21 upregulate stage 412700 BE222433 Hs.201262 ESTs 2.85 0.15 upregulate stage 412706 R97106 Hs.167546 ESTs 3.75 0.16 upregulate stage 412935 BE267045 Hs.75064 tubulin-specific chaperone c 7 0.09 upregulate stage 413402 T24065 gb: seq2245 HMSWMYK Homo sapiens cDNA clo 6.3 0.12 upregulate stage 413431 AW246428 Hs.75355 ubiquitin-conjugating enzyme E2N (homolo 3.45 0.11 upregulate stage 413445 BE141022 gb: MR0-HT0067-201099-002-d10 HT0067 Homo 3.9 0.13 upregulate stage 413587 AA156164 Hs.271833 Homo sapiens cDNA FLJ13473 fis, clone PL 7.63 0.09 upregulate stage 413800 AI129238 Hs.192235 ESTs 3.2 0.18 upregulate stage 413859 AW992356 Hs.8364 pyruvate dehydrogenase kinase, isoenzyme 2.54 0.33 upregulate stage 413930 M86153 Hs.75618 RAB11A, member RAS oncogene family 1.75 0.21 upregulate stage 413991 H44725 Hs.71300 ESTs 1.3 0.21 upregulate stage 414052 AW578849 Hs.283552 ESTs, Weakly similar to unnamed protein 8.1 0.07 upregulate stage 414203 BE262170 gb: 601150419F1 NIH_MGC_19 Homo sapiens c 1.45 0.14 upregulate stage 414343 AL036166 Hs.75914 coated vesicle membrane protein 1 0.23 upregulate stage 414664 AA587775 Hs.66295 Homo sapiens HSPC311 mRNA, partial cds 1 0.36 upregulate stage 414987 AA524394 Hs.165544 ESTs 1.51 0.51 upregulate stage 414993 AW819403 Hs.77724 KIAA0586 gene product 2.72 0.23 upregulate stage 415276 U88666 Hs.78353 SFRS protein kinase 2 6.95 0.1 upregulate stage 415303 R11813 gb: yf53a04.r1 Soares infant brain 1NIB H 8.1 0.09 upregulate stage 415392 Z44067 gb: HSC1RF051 normalized infant brain cDN 5.56 0.11 upregulate stage 415572 F12294 gb: HSC38B051 normalized infant brain cDN 5.7 0.11 upregulate stage 415773 R21651 gb: yh19g02.r1 Soares placenta Nb2HP Homo 5.3 0.11 upregulate stage 416012 AF061959 Hs.78961 protein phosphatase 1, regulatory (inhib 2.19 0.28 upregulate stage 416074 R40174 Hs.21209 ESTs 7.61 0.11 upregulate stage 416182 NM_004354 Hs.79069 cyclin G2 1 0.39 upregulate stage 416518 H60730 Hs.18917 ESTs 6.6 0.1 upregulate stage 416782 L35035 Hs.79886 ribose 5-phosphate isomerase A (ribose 5 3.9 0.17 upregulate stage 416987 D86957 Hs.80712 KIAA0202 protein 2.54 0.31 upregulate stage 417094 NM_006895 Hs.81182 histamine N-methyltransferase 4.26 0.12 upregulate stage 417275 X63578 Hs.81849 parvalbumin 1 0.12 upregulate stage 417395 BE564245 Hs.82084 integrin beta 3 binding protein (beta3-e 8.4 0.08 upregulate stage 417683 AW566008 Hs.239154 Homo sapiens cDNA FLJ12814 fis, clone NT 2.2 0.17 upregulate stage 417759 R13567 Hs.12548 ESTs 8.18 0.09 upregulate stage 417848 AA206581 Hs.39457 ESTs 8.6 0.08 upregulate stage 417985 AA187545 Hs.83114 crystallin, zeta (quinone reductase) 7 0.11 upregulate stage 418073 R39789 Hs.119714 EST 6.3 0.11 upregulate stage 418394 AF132818 Hs.84728 Kruppel-like factor 5 (intestinal) 1.63 0.46 upregulate stage 418406 X73501 Hs.84905 cytokeratin 20 3.5 0.02 upregulate stage 418555 AI417215 Hs.87159 Homo sapiens cDNA FLJ12577 fis, clone NT 6.75 0.06 upregulate stage 418636 AW749855 gb: QV4-BT0534-281299-053-c05 BT0534 Homo 4.1 0.11 upregulate stage 418786 AI796317 Hs.203594 Homo sapiens uncharacterized gastric pro 7.5 0.08 upregulate stage 418827 BE327311 Hs.47166 HT021 5.6 0.13 upregulate stage 418948 AI217097 gb: qd43h07.x1 Soares_fetal_heart_NbHH19W 1.5 0.22 upregulate stage 419551 AW582256 Hs.91011 anterior gradient 2 (Xenepus laevis) hom 2.44 0.29 upregulate stage 419590 AF005043 Hs.91390 poly (ADP-ribose) glycohydrolase 8.08 0.1 upregulate stage 419693 AA133749 Hs.92323 FXYD domain-containing ion transport reg 1.64 0.48 upregulate stage 419712 AA360838 Hs.179909 Homo sapiens cDNA: FLJ22995 fis, clone K 5.4 0.11 upregulate stage 419713 AW968058 Hs.92381 nudix (nucleoside diphosphate linked moi 7.9 0.06 upregulate stage 419720 AA249131 Hs.143607 hypothetical protein FLJ11068 2.95 0.15 upregulate stage 419791 AI579909 Hs.105104 ESTs 2.45 0.2 upregulate stage 419872 AI422951 Hs.146162 ESTs 4.25 0.17 upregulate stage 419903 T16938 Hs.87902 ESTs 2.5 0.22 upregulate stage 419932 AA281594 gb: zt03a01.r1 NCI_CGAP_GCB1 Homo sapiens 6.1 0.12 upregulate stage 420026 AI831190 Hs.166676 ESTs 3.4 0.14 upregulate stage 420187 AK001714 Hs.95744 hypothetical protein similar to ankyrin 4.03 0.18 upregulate stage 420193 AI460080 Hs.202869 ESTs 1 0.28 upregulate stage 420281 AI623693 Hs.191533 ESTs 6.6 0.11 upregulate stage 420337 AW295840 Hs.14555 Homo sapiens cDNA: FLJ21513 fis, clone C 6 0.09 upregulate stage 420370 Y13645 Hs.97234 uroplakin 2 1.2 0.45 upregulate stage 420383 T55154 Hs.144880 ESTs 3.8 0.12 upregulate stage 420450 AW968969 Hs.177726 ESTs 2.75 0.14 upregulate stage 420588 AF000982 Hs.147916 DEAD/H (Asp-Glu-Ala-Asp/His) box polypep 8.1 0.09 upregulate stage 420763 AA419392 Hs.178354 ESTs 8 0.09 upregulate stage 420838 AW118210 Hs.5244 ESTs 8.65 0.07 upregulate stage 420981 L40904 Hs.100724 peroxisome proliferative activated recep 1.98 0.32 upregulate stage 421013 M62397 Hs.1345 mutated in colorectal cancers 1 0.29 upregulate stage 421072 AI215069 Hs.89113 ESTs 5.8 0.12 upregulate stage 421110 AJ250717 Hs.1355 cathepsin E 5.45 0.03 upregulate stage 421141 AW117261 Hs.125914 ESTs 2.75 0.16 upregulate stage 421338 AA287443 gb: zs52c10.r1 NCI_CGAP_GCB1 Homo sapiens 7.45 0.09 upregulate stage 421508 NM_004833 Hs.105115 absent in melanoma 2 4.21 0.19 upregulate stage 421634 AA437414 Hs.106283 hypothetical protein FLJ10262 7.79 0.08 upregulate stage 421674 T10707 Hs.296355 neuronal PAS domain protein 2 7.5 0.1 upregulate stage 421810 AK001718 Hs.108530 hypothetical protein FLJ10856 8.45 0.08 upregulate stage 421855 F06504 Hs.27384 ESTs 2.9 0.16 upregulate stage 421898 AA259011 Hs.109268 hypothetical protein FLJ12552 7.06 0.11 upregulate stage 422156 N34524 Hs.300893 ESTs, Weakly similar to envelope protein 3.75 0.16 upregulate stage 422225 BE245652 Hs.118281 zinc finger protein 266 2.95 0.17 upregulate stage 422243 AW803733 Hs.250655 prothymosin, alpha (gene sequence 28) 8.15 0.08 upregulate stage 422511 AU076442 Hs.117938 collagen, type XVII, alpha 1 2.21 0.17 upregulate stage 422634 NM_016010 Hs.118821 CGI-62 protein 1.3 0.29 upregulate stage 422988 AW673847 Hs.97321 ESTs 4.15 0.11 upregulate stage 423081 AF262992 Hs.123159 sperm associated antigen 4 2.82 0.3 upregulate stage 423596 AA328195 Hs.234101 ESTs, Weakly similar to CTL1 protein [H. 2.75 0.19 upregulate stage 423872 AB020316 Hs.134015 uronyl 2-sulfotransferase 1.95 0.13 upregulate stage 423979 AF229181 Hs.136644 CS box-containing WD protein 7.12 0.11 upregulate stage 424005 AB033041 Hs.137507 KIAA1215 protein 1.71 0.37 upregulate stage 424014 AA333653 Hs.24790 KIAA1573 protein 4.85 0.12 upregulate stage 424028 AF055084 Hs.153692 KIAA0686 protein 8.5 0.07 upregulate stage 424194 BE245833 Hs.169854 hypothetical protein SP 192 6.1 0.1 upregulate stage 424308 AW975531 Hs.154443 minichromosome maintenance deficient (S. 6.59 0.11 upregulate stage 424550 AI650541 Hs.115298 ESTs 3.25 0.12 upregulate stage 424631 AA688021 Hs.179808 ESTs 5.45 0.11 upregulate stage 424659 AW891298 Hs.301877 ESTs, Weakly similar to hSIAH2 [H. sapien 3.55 0.15 upregulate stage 424704 AI263293 Hs.152096 cytochrome P450, subfamily IIJ (arachido 8.45 0.06 upregulate stage 424775 AB014540 Hs.153026 SWAP-70 protein 6.65 0.11 upregulate stage 424800 AL035588 Hs.153203 MyoD family inhibitor 1.94 0.3 upregulate stage 425066 M82882 Hs.154365 E74-like factor 1 (ets domain transcript 2.85 0.19 upregulate stage 425259 AL049280 Hs.155397 Homo sapiens mRNA; cDNA DKFZp564K143 (fr 5.2 0.1 upregulate stage 425277 NM_001241 Hs.155478 cyclin T2 6 0.13 upregulate stage 425508 AA991551 Hs.97013 ESTs 5.67 0.1 upregulate stage 425689 W16480 Hs.24283 ESTs 4.55 0.13 upregulate stage 425721 AC002115 Hs.159309 uroplakin 1A 0.71 0.8 upregulate stage 426069 H10807 Hs.30998 ESTs 3.4 0.17 upregulate stage 426088 AF038007 Hs.166196 ATPase, Class I, type 8B, member 1 6.84 0.09 upregulate stage 426110 NM_002913 Hs.166563 replication factor C (activator 1) 1 (14 6.7 0.1 upregulate stage 426227 U67058 Hs.168102 Human proteinase activated receptor-2 mR 3.05 0.14 upregulate stage 426603 AA382291 gb: EST95683 Testis I Homo sapiens cDNA 5 1.8 0.26 upregulate stage 426657 NM_015865 Hs.171731 solute carrier family 14 (urea transport 0.96 0.36 upregulate stage 426716 NM_006379 Hs.171921 sema domain, immunoglobulin domain (Ig), 1.32 0.49 upregulate stage 426902 AI125334 Hs.97408 ESTs 5.05 0.07 upregulate stage 426931 NM_003416 Hs.2076 zinc finger protein 7 (KOX 4, clone HF.1 2.95 0.12 upregulate stage 427001 NM_006482 Hs.173135 dual-specificity tyrosine-(Y)-phosphoryl 4.9 0.13 upregulate stage 427087 BE073913 Hs.173515 uncharacterized hypothalamus protein HT0 0.57 0.86 upregulate stage 427398 AW390020 Hs.20415 chromosome 21 open reading frame 11 1.86 0.31 upregulate stage 427399 NM_014883 Hs.177664 KIAA0914 gene product 5 0.13 upregulate stage 427450 AB014526 Hs.178121 KIAA0626 gene product 5.3 0.09 upregulate stage 427490 Z95152 Hs.178695 mitogen-activated protein kinase 13 6.37 0.13 upregulate stage 427737 AA435988 Hs.178066 ESTs, Weakly similar to AF068289 5 HDCME 5.7 0.11 upregulate stage 428042 AA419529 gb: zv03d12.r1 Soares_NhHMPu_S1 Homo sapi 1.65 0.14 upregulate stage 428336 AA503115 Hs.183752 microseminoprotein, beta- 5.37 0.05 upregulate stage 428337 AA644508 gb: af73c01.r1 Soares_NhHMPu_S1 Homo sapi 3.4 0.13 upregulate stage 428365 AA295331 Hs.183861 Homo sapiens cDNA FLJ20042 fis, clone CO 1 0.17 upregulate stage 428471 X57348 Hs.184510 stratifin 1.81 0.39 upregulate stage 428583 AA430589 Hs.301374 ESTs, Moderately similar to ALU5_HUMAN A 7.55 0.11 upregulate stage 428670 AA431682 Hs.134832 ESTs 8.05 0.1 upregulate stage 428785 AI015953 Hs.125265 ESTs 1.65 0.15 upregulate stage 429332 AF030403 Hs.199263 Ste-20 related kinase 2.64 0.26 upregulate stage 429343 AK000785 Hs.199480 epsin 3 3.15 0.27 upregulate stage 429556 AW139399 Hs.98988 ESTs 1.87 0.31 upregulate stage 429663 M68874 Hs.211587 phospholipase A2, group IVA (cytosolic, 0.61 1.02 upregulate stage 429824 AA296363 Hs.121520 Human BAC clone GS1-99H8 2.03 0.39 upregulate stage 429966 BE081342 Hs.226799 HSPC039 protein 7.85 0.08 upregulate stage 429970 AK000072 Hs.227059 chloride channel, calcium activated, fam 1 0.61 upregulate stage 430042 AB023170 Hs.227850 KIAA0953 protein 2.5 0.17 upregulate stage 430168 AW968343 Hs.300896 ESTs, Highly similar to AF128113 1 promi 1.98 0.4 upregulate stage 430308 BE540865 Hs.238990 cyclin-dependent kinase inhibitor 18 (p2 6.7 0.09 upregulate stage 430399 AI916284 Hs.199671 ESTs 8.09 0.08 upregulate stage 430763 AA485468 Hs.105658 ESTs 3.18 0.24 upregulate stage 431474 AL133990 Hs.190642 ESTs 0.37 0.51 upregulate stage 431567 N51357 Hs.260855 Homo sapiens mRNA; cDNA DKFZp761G2311 (f 1.74 0.39 upregulate stage 431585 BE242803 Hs.262823 hypothetical protein FLJ10326 3.55 0.15 upregulate stage 431683 AK001749 Hs.267604 hypothetical protein FLJ10450 8.55 0.08 upregulate stage 431709 AF220185 Hs.267923 uncharacterized hypothalamus protein HT0 7.95 0.1 upregulate stage 431846 BE019924 Hs.271580 uroplakin 1B 1.33 0.5 upregulate stage 431912 AI660552 Hs.154903 ESTs, Weakly similar to A56154 AbI subst 4.15 0.12 upregulate stage 432350 NM_005865 Hs.274407 protease, serine, 16 (thymus) 3.7 0.13 upregulate stage 432520 AI075978 Hs.188007 ESTs 2.05 0.22 upregulate stage 432524 AI458020 Hs.293287 ESTs 5.15 0.14 upregulate stage 432540 AI821517 Hs.105866 ESTs 5.5 0.11 upregulate stage 432623 AA557351 Hs.152448 ESTs, Moderately similar to PUR6_HUMAN M 8.43 0.09 upregulate stage 432632 AW973801 Hs.134656 ESTs 2.45 0.16 upregulate stage 432820 AI554057 Hs.152477 ESTs 8.29 0.09 upregulate stage 432945 AL043683 Hs.271357 ESTs, Weakly similar to unnamed protein 3.22 0.23 upregulate stage 433027 AF191018 Hs.279923 putative nucleotide binding protein, est 2.15 0.39 upregulate stage 433037 NM_014158 Hs.279938 HSPC067 protein 5.1 0.11 upregulate stage 433156 R59206 Hs.17519 Homo sapiens cDNA: FLJ22539 fis, clone H 7.9 0.1 upregulate stage 433171 AA579425 gb: nf37c08.s1 NCI_CGAP_Pr2 Homo sapiens 3.54 0.14 upregulate stage 433311 AA688149 gb: nv16h12.s1 NCI_CGAP_Pr22 Homo sapiens 6.6 0.08 upregulate stage 433383 AF034837 Hs.192731 double-stranded RNA specific adenosine d 2.45 0.21 upregulate stage 433409 AI278802 Hs.25661 ESTs 4.75 0.1 upregulate stage 433650 AA603472 Hs.28456 ESTs 1.6 0.18 upregulate stage 433675 AW977653 Hs.110771 Homo sapiens cDNA: FLJ21904 fis, clone H 3.88 0.17 upregulate stage 434328 BE564937 Hs.15984 pp21 homolog 3 0.15 upregulate stage 434476 AW858520 Hs.271825 ESTs 4.6 0.1 upregulate stage 434683 AW298724 Hs.202639 ESTs 2.1 0.19 upregulate stage 434726 AF062719 Hs.139053 ESTs 1.76 0.34 upregulate stage 435124 AA725362 Hs.120456 ESTs 7.7 0.09 upregulate stage 435563 AF210317 Hs.95497 solute carrier family 2 (facilitated glu 5.8 0.09 upregulate stage 435899 W89093 Hs.189914 ESTs 1.32 0.42 upregulate stage 436026 AI349764 Hs.217081 ESTs 1 0.22 upregulate stage 436154 AA764950 Hs.119898 ESTs 8.4 0.05 upregulate stage 436293 AI601188 Hs.120910 ESTs 2.42 0.2 upregulate stage 436361 AA825814 Hs.149065 ESTs 6.95 0.09 upregulate stage 436455 AI027959 Hs.132300 ESTs 3.25 0.15 upregulate stage 436577 W84774 Hs.17643 ESTs 6.3 0.06 upregulate stage 436684 AW976319 Hs.94806 KIAA1062 protein 4.75 0.12 upregulate stage 437036 AI571514 Hs.133022 ESTs 1.4 0.13 upregulate stage 437146 AA730977 gb: nw55f05.s1 NCI_CGAP_Ew1 Homo sapiens 1 0.37 upregulate stage 437262 BE250537 Hs.174838 Homo sapiens cDNA FLJ14192 fis, clone NT 3.25 0.17 upregulate stage 437277 AA748016 Hs.123370 ESTs 6.75 0.09 upregulate stage 437882 AI243203 Hs.131572 ESTs 8.12 0.09 upregulate stage 438392 AA806395 Hs.123205 ESTs 1 0.34 upregulate stage 438416 N76398 Hs.21187 Homo sapiens cDNA: FLJ23068 fis, clone L 8.1 0.1 upregulate stage 438739 AA815391 gb: ai61c02.s1 Soares_testis_NHT Homo sap 4.69 0.12 upregulate stage 439211 AI890347 Hs.271923 Homo sapiens cDNA: FLJ22785 fis, clone K 6.65 0.11 upregulate stage 439394 AA149250 Hs.56105 ESTs, Weakly similar to WDNM RAT WDNM1 P 3.19 0.11 upregulate stage 439544 W26354 Hs.28891 hypothetical protein FLJ11360 2.3 0.34 upregulate stage 439569 AW602166 Hs.222399 CEGP1 protein 0.73 0.51 upregulate stage 439586 AA922936 Hs.110039 ESTs 4.3 0.1 upregulate stage 439706 AW872527 Hs.59761 ESTs 1 0.14 upregulate stage 439897 NM_015310 Hs.6763 KIAA0942 protein 8.4 0.08 upregulate stage 439898 AW505514 Hs.209561 ESTs, Weakly similar to C05E11.1 gene pr 7.35 0.1 upregulate stage 439949 AW979197 Hs.292073 ESTs 8.55 0.08 upregulate stage 440035 BE561589 Hs.285122 hypothetical protein FLJ21839 6 0.11 upregulate stage 440619 AW408586 Hs.91052 ESTs, Moderately similar to ALU5_HUMAN A 7.95 0.07 upregulate stage 440635 AW610331 gb: RC4-ST0316-190100-011-c08 ST0316 Homo 5.95 0.11 upregulate stage 440787 AW292043 Hs.209433 ESTs 5.05 0.12 upregulate stage 441233 AA972965 Hs.135568 ESTs 1.7 0.12 upregulate stage 441528 AI003797 Hs.130815 hypothetical protein FLJ21870 7.2 0.09 upregulate stage 441670 AW874090 Hs.127392 ESTs, Moderately similar to p33ING1 [H. s 2.45 0.19 upregulate stage 441683 BE564214 Hs.102946 ESTs 5.9 0.13 upregulate stage 441847 AI215564 Hs.220972 ESTs 6.95 0.11 upregulate stage 442145 AI022650 Hs.8117 erbb2-interacting protein ERBIN 3 0.19 upregulate stage 442299 AW467791 Hs.155561 ESTs 5.05 0.13 upregulate stage 442315 AA173992 Hs.7956 ESTs 3.97 0.17 upregulate stage 442528 AF150317 Hs.134217 ESTs 1.4 0.34 upregulate stage 442571 C06338 Hs.165464 ESTs 8 0.08 upregulate stage 442607 AA507576 Hs.288361 Homo sapiens cDNA: FLJ22696 fis, clone H 6.7 0.1 upregulate stage 442652 AI005163 Hs.201378 ESTs, Weakly similar to KIAA0944 protein 7.15 0.11 upregulate stage 442947 R40800 Hs.21303 ESTs 8.5 0.08 upregulate stage 442993 BE018682 Hs.44343 ESTs 1.91 0.34 upregulate stage 443015 R33261 Hs.6614 ESTs 8.5 0.09 upregulate stage 443085 AI032660 Hs.164711 ESTs 4 0.13 upregulate stage 443228 W24781 Hs.293798 ESTs 1.61 0.47 upregulate stage 443367 AW071349 Hs.215937 ESTs 1.75 0.29 upregulate stage 443371 AI792888 Hs.145489 ESTs 5.85 0.11 upregulate stage 443564 AI921685 Hs.199713 ESTs 1.4 0.18 upregulate stage 443638 AW028696 Hs.145679 ESTs 3.25 0.15 upregulate stage 443677 AV646096 Hs.293776 ESTs, Weakly similar to 1207289A reverse 6.45 0.11 upregulate stage 443861 AW449462 Hs.134743 ESTs 6.72 0.09 upregulate stage 444097 AW517412 Hs.150757 ESTs 4.25 0.11 upregulate stage 444171 AB018249 Hs.10458 small inducible cytokine subfamily A (Cy 8.45 0.09 upregulate stage 444184 T87841 Hs.282990 Human DNA sequence from clone RP1-28H20 8.1 0.1 upregulate stage 444385 BE278964 Hs.11085 CGI-111 protein 8.6 0.09 upregulate stage 444624 AV650476 Hs.282936 ESTs 7.52 0.1 upregulate stage 444631 AW995395 Hs.84520 ESTs 1.25 0.21 upregulate stage 444707 AI188613 Hs.143866 ESTs 2.1 0.21 upregulate stage 444735 BE019923 Hs.243122 hypothetical protein FLJ13057 similar to 6.8 0.1 upregulate stage 444779 AI192105 Hs.147170 ESTs 0.94 0.6 upregulate stage 444823 BE262989 Hs.12045 putative protein 8.09 0.1 upregulate stage 444858 AI199738 Hs.208275 ESTs, Weakly similar to unnamed protein 4.6 0.09 upregulate stage 444875 AI200759 Hs.44737 ESTs 6.85 0.11 upregulate stage 444888 AI651039 Hs.148559 ESTs 3.15 0.18 upregulate stage 445076 AI206888 Hs.154131 ESTs 7.81 0.09 upregulate stage 445182 AW189787 Hs.147474 ESTs 2 0.07 upregulate stage 445189 AI936450 Hs.147482 ESTs 2.65 0.12 upregulate stage 445320 AA503887 Hs.167011 Homo sapiens cDNA: FLJ21362 fis, clone C 1.47 0.46 upregulate stage 445594 AW058463 Hs.12940 zinc-fingers and homeoboxes 1 6.2 0.07 upregulate stage 445674 BE410347 Hs.13063 transcription factor CA150 3.8 0.15 upregulate stage 445817 NM_003642 Hs.13340 histone acetyltransferase 1 5.6 0.1 upregulate stage 445871 AI702901 Hs.145582 ESTs 2.3 0.33 upregulate stage 446140 AA356170 Hs.26750 Homo sapiens cDNA: FLJ21908 fis, clone H 2.15 0.18 upregulate stage 446553 AB021179 Hs.15299 HMBA-inducible 2.55 0.18 upregulate stage 446651 AA393907 Hs.97179 ESTs 8.05 0.07 upregulate stage 447086 AI421397 Hs.161321 ESTs 6.9 0.1 upregulate stage 447290 AI476732 Hs.263912 ESTs 2.35 0.18 upregulate stage 447379 AI554946 Hs.158794 ESTs 6.3 0.09 upregulate stage 447390 X95384 Hs.18426 translational inhibitor protein p14.5 7.25 0.08 upregulate stage 447533 NM_004786 Hs.18792 thioredoxin-like, 32 kD 1 0.24 upregulate stage 447548 N53388 Hs.7222 ESTs 8.6 0.07 upregulate stage 447731 AA373527 Hs.19385 CGI-58 protein 7.3 0.08 upregulate stage 447853 AI434204 Hs.164285 ESTs, Weakly similar to Afg1p [S. cerevis 6.75 0.11 upregulate stage 447857 AA081218 Hs.58608 Homo sapiens cDNA FLJ14206 fis, clone NT 2.2 0.24 upregulate stage 447965 AW292577 Hs.94445 ESTs 3.6 0.13 upregulate stage 448072 AI459306 Hs.24908 ESTs 5.8 0.11 upregulate stage 448474 AI792014 Hs.13809 ESTs 2.72 0.28 upregulate stage 448513 AA344741 Hs.61773 Homo sapiens cDNA FLJ11648 fis, clone HE 4.8 0.12 upregulate stage 448601 R61666 Hs.293690 ESTs 2.65 0.2 upregulate stage 448625 AW970786 Hs.178470 Homo sapiens cDNA: FLJ22662 fis, clone H 1.68 0.44 upregulate stage 448735 AW473830 Hs.171442 ESTs 2.95 0.19 upregulate stage 448807 AI571940 Hs.7549 ESTs 2.3 0.14 upregulate stage 448920 AW408009 Hs.22580 alkylglycerone phosphate synthase 8.6 0.08 upregulate stage 449448 D60730 Hs.57471 ESTs 1 0.13 upregulate stage 449517 AW500106 Hs.23643 serine/threonine protein kinase MASK 6.4 0.11 upregulate stage 449585 AI655321 Hs.197693 ESTs 1 0.16 upregulate stage 449619 AI655992 Hs.300647 ESTs 8.35 0.09 upregulate stage 449659 R60031 Hs.198899 eukaryotic translation initiation factor 6.65 0.11 upregulate stage 449689 AF228421 Hs.301039 Human DNA sequence from clone RP1-132F21 8.35 0.06 upregulate stage 449901 AI674072 gb: wd15h01.x1 Soares_NFL_T_GBC_S1 Homo s 5.8 0.1 upregulate stage 449964 AW001741 Hs.273193 hypothetical protein FLJ10706 8.7 0.09 upregulate stage 450170 AI685366 Hs.32775 ESTs 6.77 0.12 upregulate stage 450193 AI916071 Hs.224623 ESTs 5.73 0.1 upregulate stage 450336 AA046814 Hs.288928 Homo sapiens cDNA: FLJ23296 fis, clone H 8.2 0.08 upregulate stage 450341 N90956 Hs.17230 hypothetical protein FLJ22087 4.2 0.19 upregulate stage 450353 AI244661 Hs.103296 ESTs 4.71 0.15 upregulate stage 450737 AW007152 Hs.203330 ESTs 2.14 0.25 upregulate stage 450795 AW173371 Hs.60435 ESTs 6 0.1 upregulate stage 450928 AI744417 gb: tr10h12.x1 NCI_CGAP_Ov23 Homo sapiens 1.75 0.18 upregulate stage 451134 AA318315 Hs.25999 hypothetical protein FLJ22195 4.3 0.1 upregulate stage 451230 BE546208 Hs.26090 hypothetical protein FLJ20272 4.75 0.16 upregulate stage 451593 AF151879 Hs.26706 CGI-121 protein 5.8 0.11 upregulate stage 451618 AA115639 Hs.26764 KIAA0546 protein 5.8 0.13 upregulate stage 451668 Z43948 Hs.26789 hypothetical protein FLJ10320 0.73 0.26 upregulate stage 451790 AA927403 Hs.43897 ESTs, Weakly similar to P2CA_HUMAN PROTE 3.2 0.25 upregulate stage 452001 AI827675 Hs.297735 Homo sapiens cDNA: FLJ22094 fis, clone H 3.7 0.13 upregulate stage 452039 AI922988 Hs.172510 ESTs 1 0.65 upregulate stage 452046 AB018345 Hs.27657 KIAA0802 protein 1.13 0.39 upregulate stage 452092 BE245374 Hs.27842 hypothetical protein FLJ11210 3.2 0.15 upregulate stage 452278 AL037715 Hs.28785 Homo sapiens mRNA; cDNA DKFZp586F0219 (f 8.25 0.07 upregulate stage 452381 H23329 Hs.290880 ESTs, Weakly similar to ALU1_HUMAN ALU S 1 0.34 upregulate stage 452420 BE564871 Hs.29463 centrin, EF-hand protein, 3 (CDC31 yeast 4.97 0.13 upregulate stage 452714 AW770994 Hs.30340 hypothetical protein KIAA1165 7.6 0.09 upregulate stage 453078 AF053551 Hs.31584 metaxin 2 5.3 0.09 upregulate stage 453370 AI470523 Hs.182356 ESTs, Moderately similar to translation 3.78 0.13 upregulate stage 453765 BE279901 Hs.35091 hypothetical protein FLJ10775 3.95 0.11 upregulate stage 453972 AW137224 Hs.245869 ESTs 6 0.09 upregulate stage 454044 AW022393 gb: df37h12.y1 Morton Fetal Cochlea Homo 1.15 0.18 upregulate stage 454289 AL137554 Hs.49927 Homo sapiens mRNA; cDNA DKFZp434H1720 (f 7.05 0.1 upregulate stage 454314 AW364844 gb: QV3-DT0044-221299-045-c03 DT0044 Homo 1 0.37 upregulate stage 454315 AW373564 Hs.251928 nuclear pore complex interacting protein 2.7 0.13 upregulate stage 454775 BE160229 gb: QV1-HT0413-090200-062-a12 HT0413 Homo 8.5 0.09 upregulate stage 454790 AW820852 gb: RC2-ST0301-120200-011-f12 ST0301 Homo 1.15 0.14 upregulate stage 454792 AW820794 Hs.252406 hypothetical protein FLJ12296 similar to 3.65 0.12 upregulate stage 455170 AW860972 gb: QV0-CT0387-180300-167-h07 CT0387 Homo 5.7 0.07 upregulate stage 455511 BE144762 gb: CM0-HT0180-041099-065-b04 HT0180 Homo 1 0.25 upregulate stage 456141 AI751357 Hs.288741 Homo sapiens cDNA: FLJ22256 fis, clone H 8.35 0.09 upregulate stage 456258 AW976410 Hs.289069 Homo sapiens cDNA: FLJ21016 fis, clone C 4.85 0.14 upregulate stage 456279 AW006783 Hs.6686 ESTs 7.25 0.1 upregulate stage 457518 AA825350 Hs.143805 ESTs, Weakly similar to ALU1_HUMAN ALU S 6.84 0.11 upregulate stage 457570 AA579426 Hs.190226 ESTs 2.6 0.2 upregulate stage 457982 AW856093 Hs.183617 ESTs 1 0.25 upregulate stage 458080 BE142728 gb: MR0-HT0157-021299-004-d08 HT0157 Homo 2.05 0.27 upregulate stage 458340 AI457102 Hs.121583 Human glucose transporter pseudogene 2.25 0.18 upregulate stage 458440 AI095468 Hs.135254 ESTs, Weakly similar to thrombospondin t 2.35 0.13 upregulate stage 458771 AW295151 Hs.163612 ESTs 1 0.19 upregulate stage 459092 AA722012 Hs.255757 ESTs, Weakly similar to KIAA0611 protein 6.95 0.1 upregulate stage

[0362] TABLE 1B Pkey CAT Accessions 407774 101538_1 AA084958 AA214034 AA044587 AA130152 AA130116 D81924 407939 1027688_1 W05608 AW118352 AW196215 407980 103087_1 AA046309 AI263500 AA046397 408224 1048369_1 AW175997 AW176000 AW175999 AW175994 AW176004 AW175989 408241 1048867_1 AW176546 AW178965 BE141057 408268 104987_1 AL138247 AA053529 BE173313 408277 1050131_1 AW177959 AW177960 AW178066 AW178022 408306 1050863_1 BE141991 AW178855 BE141990 BE141993 BE141994 BE062405 BE062404 AW178850 409281 111502_1 AA069998 AA075659 AA075660 AA069828 409408 1128045_1 AW387837 AW387874 AW387826 AW387758 AW387864 AW809268 AW387754 409566 114012_1 AA078899 AA078782 AA075788 409760 115373_1 AA302840 T93016 T92950 AA077551 409794 1154785_1 AW885691 BE185989 BE185940 AW500322 H10282 409810 1155339_1 AW500895 AW937549 409840 1156071_1 AW502122 AW502125 AW501663 AW501720 410071 1174764_1 AW582568 AW818656 AW818647 AW818655 AW818637 AW818234 410128 117773_1 AW904599 AA325920 AW964919 AA081786 T05150 410269 1189983_1 AW613597 BE080235 BE080168 410475 1204788_1 AW749927 AW749938 AW749986 AW749966 R87124 AW860547 410495 1205826_1 N95428 W24040 AW751366 H81987 410520 1206965_1 AW752710 BE180336 BE180186 410534 1207247_1 AW905138 AW753008 R13818 Z43519 410537 1207336_1 AW753108 AW852909 N36993 AW894327 AW903629 410560 1208311_1 N29220 AW754225 AW754224 410562 1208415_1 AW858528 AW754362 H74000 410724 1218202_1 AW799269 AW799385 AW799501 AW799386 AW799270 AW799467 410751 121964_1 AA357918 AA089516 AA357917 410754 1219733_1 T63840 AW801569 AW801568 410785 1221055_1 AW803341 AW803265 AW803403 AW803466 AW803402 AW803413 AW803268 AW803396 AW803334 AW803355 410844 1223878_1 AW807073 AW807055 AW807067 AW807276 AW807030 AW807363 AW845892 AW807091 AW807275 AW807284 AW807287 AW845891 AW807195 AW807271 410910 1226517_1 AW810204 AW810555 AW810196 AW810619 AW810507 410973 1228236_1 AW812278 AW812286 AW812274 410997 1228736_1 AW812877 AW812878 AW812952 AW812880 411110 1232598_1 H93000 AW818022 AW818044 411112 1232692_1 AW818158 AW865743 AW865702 AW865698 411132 1233580_1 AW819191 AW819252 AW819183 AW819175 AW819177 AW819186 AW819180 BE158470 AW819242 AW819269 AW819244 AW819190 AW819265 AW819268 AW819246 BE152602 AW819249 AW819251 AW819263 AW819194 411137 1233775_1 AW819455 AW819711 AW819553 411157 1234099_1 AW819867 AW819956 AW820159 411159 1234102_1 AW820178 AW820183 AW819870 AW819937 AW835709 AW820184 AW820157 AW819945 AW820096 411162 1234161_1 AW819944 AW820182 AW820168 AW819959 AW819953 411170 1234379_1 AW820503 AW820306 AW820429 BE174741 AW820244 BE174738 411173 123446_1 R81571 AW962014 AA324277 411193 1235254_1 AW821484 AW821461 AW821490 AW821525 AW821526 AW821519 411242 1236393_1 BE146808 BE146949 AW833828 BE147002 BE147066 AW833422 AW833475 AW833485 AW833414 AW833406 AW833395 AW833640 AW833835 AW833421 BE146805 AW833465 BE146753 BE147004 AW833473 AW833573 BE147068 AW833466 AW833680 BE147063 BE147058 BE146807 AW833830 AW833694 AW833596 AW833601 411245 1236412_1 AW833441 AW833552 AW833700 AW833610 AW833673 AW833675 411282 1237660_1 AW995011 AW880630 AW995662 AW880196 AW860455 AW995379 AW880634 AW938253 AW880580 AW938263 AW880584 AW860454 AW880603 AW880026 AW938265 AW880592 AW852203 AW880588 AW880680 AW995392 AW880598 AW860603 AW880590 AW880175 AW846534 AW880098 AW880108 AW860453 AW938051 AW995191 AW880532 AW880542 AW938197 AW994929 AW880635 AW835438 AW938057 AW938054 411327 1238874_1 AW836922 AW876719 AW876688 AW836919 AW836997 AW836908 AW836912 AW836993 411336 1239216_1 AW837675 AW837356 AW837581 AW837348 AW837681 411339 1239387_1 BE164598 AW837578 AW837582 411407 1244071_1 R00903 R20424 AW844169 411418 124518_1 BE241870 AI752584 Z19223 AA307961 AA181165 AA093272 AW368570 411425 1245503_1 AW846012 AW846007 AW845996 AW845975 411461 1246730_1 AW847937 AW847672 AW847809 AW847923 AW847808 AW847616 411474 1247047_2 AW848427 AW848890 AW848159 AW848118 AW848634 AW848285 AW848086 AW848485 AW848283 AW848162 411526 1248748_1 AW850327 AW850350 AW850348 AW850375 411560 1249443_1 AW851186 AW996967 BE143456 411568 1249776_1 BE144593 AW851632 AW968149 AW968144 W21059 411691 1254166_1 AW857199 BE066018 BE065982 BE066082 BE065949 BE066019 BE066081 BE065954 BE066084 411727 1255052_1 AW858443 AW858436 AW861923 AW858551 AW861872 AW858474 AW861904 AW858398 411741 1255976_1 AW859650 BE071806 AW859655 411771 1257335_1 AW993247 AW861464 411787 1258789_1 AW863568 BE161696 BE161629 BE161824 411788 125879_1 AW897793 R20054 H23321 411826 1260006_1 AW947946 AW947986 AW947977 AW865187 AW865246 AW865182 AW865376 AW865392 AW865184 411840 1260678_1 AW866330 AW866410 AW866332 AW866411 AW866327 AW866326 AW866335 AW866334 AW866331 AW866333 AW866328 AW866329 411860 126168_1 T89420 N87510 AA095932 411880 1263110_1 AW872477 BE088101 T05990 411932 1266125_1 AW876548 AW876577 AW876528 AW876623 AW876519 AW876540 AW876569 AW876534 AW876563 AW876545 AW876574 412134 1279147_1 AW895560 AW895557 AW895314 AW895537 AW895287 AW895411 412178 1281471_1 AW898526 AW898525 Z19700 412296 1288043_1 AW936233 AW936272 412303 1288130_1 AW936336 AW936339 412305 1288141_1 AW936369 AW936377 AW936355 AW936410 AW936460 412312 1288349_1 AW936686 AW936656 AW936608 AW936635 AW936652 AW936679 AW936726 AW936602 AW936733 412327 1288935_1 AW937355 AW937450 BE162340 BE162397 412354 1290342_1 AW939148 AW939200 BE161819 412357 1290611_1 AW939537 AW939584 W92705 412359 129085_1 AW837985 AW837938 AA101955 AW837913 AW837935 412367 1291505_1 AW945964 AW946020 AW946034 AW946027 AW946041 AW946044 AW946033 AW946024 AW946021 AW946029 AW946015 AW946016 AW946039 AW946045 AW946028 AW946036 412389 1292588_1 AW947655 AW984020 412547 1305813_1 W27161 AW961828 412559 1306011_1 T31474 T31123 Z45146 AW962040 412671 1319959_1 AW977734 H62048 412744 1324622_1 N31101 N46491 AW994084 412838 1331178_1 D61870 D61866 BE002674 413119 1349658_1 BE065941 BE066098 BE066070 BE065997 BE066003 413141 1350477_1 BE166323 BE067045 413266 1356260_1 BE300352 BE299274 BE075351 BE297444 413294 1359149_1 BE144034 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1335422_1 BE008343 BE008321 BE008326 BE008314 BE008345 BE008330 BE008344 BE008327 455610 1337549_1 BE011703 BE011692 BE011697 BE011624 BE011673 BE011644 455647 1348563_1 BE064415 BE064430 BE064448 455650 1348720_1 BE064655 BE153953 455657 1349078_1 BE065209 BE065364 BE065110 BE065111 455669 1349554_1 BE065803 BE065826 455678 1349716_1 BE066007 BE066017 BE066074 455761 1359566_1 BE080895 BE080906 455831 1373969_1 BE144966 BE144957 BE144958 455874 1379514_1 BE152283 BE152260 BE152297 BE152292 BE152259 BE152250 455880 1380022_1 BE153208 BE153146 BE152981 455903 1381603_1 BE155185 BE155264 BE155186 455938 1384537_1 BE159432 BE159313 BE159295 BE159242 455950 1385884_1 BE161004 BE162497 BE161135 BE160999 BE162492 455951 1385886_1 BE161001 BE162494 BE162470 BE161172 455965 1389984_1 BE167014 BE167058 BE167062 455981 1396805_1 BE177000 BE177003 BE176816 BE176952 456034 142696_1 AW450979 AA136653 AA136656 AW419381 AA984358 AA492073 BE168945 AA809054 AW238038 BE011212 BE011359 BE011367 BE011368 BE011362 BE011215 BE011365 BE011363 456122 153360_1 R11813 AA164376 T56632 456212 1655565_1 N51636 T51874 T51829 456235 168686_1 AA203637 AA832266 H67452 456493 193331_1 AA261830 AW967855 H26953 AA262478 456592 202684_1 R91600 T87079 AA291455 456800 233842_1 AL118754 AA333202 H38001 457340 322100_1 AA492071 AA484229 AW969850 457427 336353_1 AW971287 AA524976 AA513479 457437 337879_1 AW969732 AW970974 AA515741 457474 341077_1 AW972935 AA525272 N28227 457625 373012_1 T10073 H14872 AA604786 457892 432926_1 AA744389 AA744270 AA744284 AA744299 AA745380 AA744337 AA846905 AA847698 458080 471050_1 BE142728 AA834047 AW937124 458172 497769_1 BE007237 BE007496 BE007263 W19919 BE546311 AA984819 458781 743159_1 AI444821 W26012 458841 784186_1 W28965 W28971 458880 80785_1 AA046742 AA551269 AA001505 459028 868710_1 AI940577 AI940580 AI940568 AI940578 AI940569 AI795858 AI795867 AI940572 459128 918011_1 AI902169 AI902173 AI902323 AI902174 AI902347 459182 922744_1 BE178517 AI908132 BE142437

[0363] TABLE 1C Pkey Ref Strand Nt_position 400471 9931670 Minus 105629-105760 400495 9714773 Minus 61902-62137 400528 6981824 Plus 472381-472528, 474170-474277, 475328-475542, 475878-476000 400577 7960401 Plus 101535-101881 400608 9887666 Minus 96756-97558 400641 8117693 Plus 4786-4992 400644 8117693 Plus 27682-27840 400666 8118496 Plus 17982-18115, 20297-20456 400749 7331445 Minus 9162-9293 400750 8119067 Plus 198991-199168, 199316-199548 400751 7331445 Minus 35395-35533 400761 8131609 Minus 114220-115164 400762 8131616 Plus 7235-7605 400773 8131629 Minus 44116-44238, 48208-48321 400843 9188605 Plus 5863-5970, 7653-7784, 8892-9023, 9673-9807, 10634-10789, 15254-15403, 23827-23958 400844 9188605 Plus 24746-24872, 25035-25204 400845 9188605 Plus 34428-34612 400846 9188605 Plus 39310-39474 400860 9757499 Minus 151830-152104, 152649-152744 400880 9931121 Plus 29235-29336, 36363-36580 400887 9958187 Plus 119239-121542 400888 9958187 Minus 199600-199875 400937 7652890 Minus 89519-89905 400977 8072510 Plus 73950-74364 401002 8117251 Minus 77898-78050 401024 8117489 Plus 60551-60802 401045 8117619 Plus 90044-90184, 91111-91345 401048 7232177 Plus 132430-132761 401049 7232177 Plus 149157-150692 401086 9957912 Plus 84561-84884 401093 8516137 Minus 22335-23166 401101 8568122 Plus 77081-77226 401192 9719502 Minus 69559-70101 401197 9719705 Plus 176341-176452 401203 9743387 Minus 172961-173056, 173868-173928 401205 9743388 Plus 167373-167433, 167936-168031 401256 9796573 Minus 45482-45620 401262 9796963 Plus 35662-35799 401271 9797373 Minus 61292-61911 401276 8954274 Minus 15919-16096 401279 9800062 Minus 13535-13669 401342 9908882 Plus 3096-3242 401365 9796180 Minus 119572-119672 401395 7327842 Minus 11502-11771, 46357-46489, 58720-58916 401420 7452889 Minus 141362-141502 401439 8246737 Plus 92993-94026 401451 6634068 Minus 119926-121272 401508 7534110 Minus 110779-110983 401519 6649315 Plus 157315-157950 401537 7960358 Minus 186786-187029, 190607-190779, 198218-198348 401561 8224660 Minus 10652-10838, 19815-20018 401566 8469090 Minus 96277-96420, 96979-97160 401604 7689963 Minus 119835-120185 401619 8516761 Minus 141309-143576 401669 9801805 Plus 25414-26310 401691 3582311 Plus 162333-162715 401694 3540172 Minus 64056-64168 401747 9789672 Minus 118596-118816, 119119-119244, 119609-119761, 120422-120990, 130161-130381, 130468-130593, 131097-131258, 131866-131932, 132451-132575, 133580-134011 401759 9929699 Plus 59811-60665 401780 7249190 Minus 28397-28617, 28920-29045, 29135-29296, 29411-29567, 29705-29787, 30224-30573 401866 8018106 Plus 73126-73623 401905 8671966 Plus 153965-154441, 156599-156819 401994 4153858 Minus 42904-43124, 43211-43336, 44607-44763, 45199-45281, 46337-46732 402001 9501818 Plus 68052-68223 402075 8117407 Plus 121907-122035, 122804-122921, 124019-124161, 124455-124610, 125672-126076 402076 8117410 Plus 128316-128627 402089 7249154 Plus 101610-101819 402110 8131678 Minus 173889-174062 402176 7543687 Minus 10-750 402230 9966312 Minus 29782-29932 402245 7690231 Minus 88253-88417 402296 6598824 Plus 22587-23723 402325 7636348 Minus 60658-60738, 61677-61803 402407 3962498 Minus 115812-116187 402408 9796239 Minus 110326-110491 402430 9796372 Minus 62382-62552 402435 9796462 Plus 114593-115588 402472 9797116 Plus 53716-54470 402474 7547175 Minus 53526-53628, 55755-55920, 57530-57757 402480 9797375 Plus 59708-59999 402490 9797648 Plus 149982-150929 402522 9798493 Plus 20605-20731 402530 7630937 Minus 1524-2003 402546 7637348 Plus 24673-25170 402553 9863566 Plus 48292-48398, 49564-49944 402604 9909420 Plus 20393-20767 402716 8969253 Minus 84065-84242 402727 9211324 Plus 54596-54777 402812 6010110 Plus 25026-25091, 25844-25920 402820 6456853 Minus 82274-82443 402846 9408716 Minus 5726-5850 402889 9931133 Plus 89392-89498, 90358-90571 402892 8086844 Minus 194384-194645 402901 8894222 Minus 175426-175667 402922 8216969 Minus 19036-19401, 19589-19849, 19951-20102 402938 8953442 Plus 22365-22473 402995 2996643 Minus 5962-6216 403005 5791501 Minus 16945-17053, 20018-20403 403020 6984114 Minus 96644-97021, 97462-97868 403029 7768593 Minus 44558-44766 403047 3540153 Minus 59793-59968 403073 8954241 Plus 142964-143260 403085 8954241 Plus 165035-165334, 165420-165713 403092 8954241 Plus 174720-175016, 175104-175406, 175508-175813 403106 7331404 Plus 77162-77350, 81338-81511 403172 7464784 Minus 64007-64275 403212 7630897 Minus 156037-156210 403214 7630945 Minus 76723-77027, 79317-79484 403277 8072597 Minus 27494-27642 403331 8567936 Plus 169793-169966 403344 8569726 Plus 70823-70990 403362 8571772 Plus 64099-64260 403381 9438267 Minus 26009-26178 403426 9719529 Minus 157156-158183 403485 9966528 Plus 2888-3001, 3198-3532, 3655-4117 403567 8101141 Plus 35349-35614 403588 8101227 Minus 197672-197944 403590 8101229 Plus 405-1296 403615 8567964 Plus 107671-107866 403687 7387384 Plus 9009-9534 403754 7229815 Minus 163899-164726 403776 7770611 Minus 1414-1513, 1624-1756 403822 9369510 Minus 142803-142922 403851 7708872 Plus 22733-23007 403860 7708960 Minus 95755-96045 403894 7381715 Minus 1442-2224 403903 7710671 Minus 101165-102597 403959 8224399 Minus 175363-177474 404015 8655948 Minus 587821-588222 404059 3548785 Plus 104326-106788 404113 9588571 Minus 13446-13646 404148 9863703 Plus 78218-78418, 79571-79709 404152 9884757 Plus 41111-41281, 45495-45716, 47801-47910 404156 9886577 Plus 127319-127754 404229 7159766 Plus 16607-16841 404232 8218045 Minus 71800-71956 404268 9711362 Plus 33238-33463 404274 9885189 Plus 104127-104318 404288 2769644 Plus 3512-3691 404290 2769644 Plus 36651-36813 404336 9838028 Plus 157951-158129 404403 7272157 Minus 72053-72238 404440 7528051 Plus 80430-81581 404488 8113286 Minus 64835-64994 404498 8151654 Plus 13292-13497 404507 8151803 Plus 146359-146739 404516 8151967 Plus 114153-114322 404538 8247909 Minus 192748-192945 404594 9958262 Minus 15310-15510 404639 9796778 Plus 5779-14387 404653 9796999 Plus 164997-165230 404676 9797204 Minus 56167-56342, 58066-58189, 58891-59048, 60452-60628 404684 9797403 Minus 110881-111020 404685 9797437 Minus 153217-153315, 154043-154124, 159185-159353, 161290-161420, 163544-163669, 166127-166207, 167654-167734 404704 9800728 Minus 88841-89018 404819 4678240 Plus 16223-16319, 16427-16513, 16736-16859, 16941-17075, 17170-17287, 17389-17529, 18261-18357, 18443-18578 404829 6624702 Minus 4913-5093, 7310-7469, 9472-9621, 9951-10082 404860 8979555 Plus 65852-66081 404874 9650523 Minus 96066-96192 404881 5931510 Minus 36360-36608 404894 6850447 Plus 102822-103127 404939 6862697 Plus 175318-175476 404977 3738341 Minus 43081-43229 405033 7107731 Minus 142358-142546 405059 7656683 Plus 349-822 405064 7658416 Plus 81207-81416 405071 7708797 Minus 11115-11552 405102 8076881 Minus 120922-121296 405167 9966316 Plus 43796-43981, 48245-48427, 54141-54317 405170 9966524 Plus 37047-37198 405177 7139696 Minus 118466-118663 405186 7229793 Plus 161475-161581, 162930-163067 405258 7329310 Plus 129930-130076 405281 6139075 Minus 34202-34351, 35194-35336, 45412-45475, 45731-45958, 47296-47457, 49549-49658, 49790-49904, 50231-50342, 53583-53667, 54111-54279 405308 3638954 Plus 40778-41034, 41383-41573 405349 2914717 Minus 85552-85806 405379 6513908 Minus 22332-22473, 24333-24439 405390 6606064 Minus 94007-94177 405411 3451356 Minus 17503-17778, 18021-18290 405463 7715630 Minus 123097-123260 405494 8050952 Minus 70284-70518 405520 9454643 Plus 60849-60981 405526 9558556 Minus 132704-133277 405580 4512267 Plus 169232-169647 405600 5923640 Plus 26662-27225 405654 4895155 Minus 53624-53759 405720 9797144 Plus 13409-13861 405725 9838299 Minus 106417-106521 405735 9931101 Minus 29854-29976 405738 9943998 Plus 44370-45410 405809 5304920 Minus 6655-6883, 8687-8859 405838 5686575 Plus 3460-3717 405863 7657810 Plus 49410-49620 405867 6758731 Minus 74553-75173 405906 7705124 Minus 10835-11059 405920 6758795 Plus 120621-120971 405968 8247789 Plus 14893-15148 406017 8272661 Minus 46271-46874 406036 6758919 Plus 17942-18163 406081 9123861 Minus 38115-38691 406137 9166422 Minus 30487-31058 406187 7289992 Plus 8044-8877 406243 7417725 Plus 38899-39369 406270 7534217 Plus 13136-13591 406320 9211754 Minus 20170-20511 406322 9212102 Minus 130230-130418 406360 9256107 Minus 7513-7673 406367 9256126 Minus 58313-58489 406397 9256243 Minus 127317-127454 406399 9256288 Minus 63448-63554 406434 9256651 Minus 17803-17931 406467 9795551 Plus 182212-182958 406471 9795566 Plus 87383-87589 406475 9797684 Plus 125417-125563, 128052-128180 406485 7711305 Plus 125036-125422 406511 7711412 Plus 177277-177384 406588 8189273 Minus 135629-135848

[0364] TABLE 2A 485 GENES UP-REGULATED IN BLADDER CANCER Pkey ExAccn UnigeneID Unigene Title R1 418818 AA228899 Hs.101307 Homo sapiens HUT11 protein mRNA, partial 3.473 412841 AI751157 Hs.101395 hypothetical protein MGC11352 2.279 421066 AU076725 Hs.101408 branched chain aminotransferase 2, mitoc 3.052 435136 R27299 Hs.10172 ESTs 4.717 444042 NM_004915 Hs.10237 ATP-binding cassette, sub-family G (WHIT 0.003 421307 BE539976 Hs.103305 Homo sapiens mRNA; cDNA DKFZp434B0425 (f 188.231 421318 U63973 Hs.103501 rhodopsin kinase 1.381 421359 AK001589 Hs.103816 hypothetical protein FLJ10727 1.000 459462 AA481396 Hs.105167 ESTs 1.000 430134 BE380149 Hs.105223 ESTs, Weakly similar to T33188 hypotheti 1.000 433227 AB040923 Hs.106808 kelch (Drosophila)-like 1 1.000 421742 AW970004 Hs.107528 androgen induced protein 1.514 417366 BE185289 Hs.1076 small proline-rich protein 1B (cornifin) 2.782 444342 NM_014398 Hs.10887 similar to lysosome-associated membrane 20.064 451686 AA059246 Hs.110293 ESTs 0.033 454417 AI244459 Hs.110826 trinucleotide repeat containing 9 56.751 458760 AI498631 Hs.111334 ferritin, light polypeptide 2.512 422119 AI277829 Hs.111862 KIAA0590 gene product 2.634 422170 AI791949 Hs.112432 anti-Mullerian hormone 0.055 441877 AW273802 Hs.11340 hypothetical protein FLJ23047 0.008 445958 BE326257 Hs.114536 ESTs 0.002 434288 AW189075 Hs.116265 fibrillin3 11.401 435347 AW014873 Hs.116963 ESTs 0.003 453134 AA032211 Hs.118493 ESTs 262.962 444781 NM_014400 Hs.11950 GPI-anchored metastasis-associated prote 5.336 436154 AA764950 Hs.119898 ESTs 103.154 436246 AW450963 Hs.119991 ESTs 0.071 436293 AI601188 Hs.120910 ESTs 29.129 433078 AW015188 Hs.121575 Homo sapiens cDNA FLJ12231 fis, clone MA 274.769 438181 AW978608 Hs.122121 ESTs, Weakly similar to I38022 hypotheti 0.024 449399 AA760881 Hs.122408 ESTs 1.000 437722 AW292947 Hs.122872 ESTs, Weakly similar to JU0033 hypotheti 4.314 457465 AW301344 Hs.122908 DNA replication factor 0.264 409757 NM_001898 Hs.123114 cystatin SN 1.390 439907 AA853978 Hs.124577 ESTs 0.010 437181 AI306615 Hs.125343 ESTs, Weakly similar to KIAA0758 protein 0.344 440304 BE159984 Hs.125395 ESTs 0.025 423248 AA380177 Hs.125845 ribulose-5-phosphate-3-epimerase 0.014 441495 AW294603 Hs.127039 ESTs 0.198 435376 AW770956 Hs.127280 ESTs 0.008 427685 AI751124 Hs.127311 ESTs 3.244 423349 AF010258 Hs.127428 homeo box A9 0.134 445457 AF168793 Hs.12743 carnitine O-octanoyltransferase 7.255 420759 T11832 Hs.127797 Homo sapiens cDNA FLJ11381 fis, clone HE 1.000 441875 AI435973 Hs.128056 ESTs 0.013 441940 AW298115 Hs.128152 ESTs 6.075 445537 AJ245671 Hs.12844 EGF-like-domain, multiple 6 0.137 429983 W92620 Hs.128656 ESTs 162.590 445600 AF034803 Hs.12953 PTPRF interacting protein, binding prote 0.969 437553 AI829935 Hs.130497 ESTs, Weakly similar to MAT8_HUMAN CHLOR 9.163 459204 AW194601 Hs.13219 ESTs 1.000 439842 AI910896 Hs.132413 ESTs 1.000 443113 AI040686 Hs.132908 ESTs 0.069 423853 AB011537 Hs.133466 slit (Drosophila) homolog 1 0.100 420792 AA280321 Hs.13392 tethering factor SEC34 16.103 427719 AI393122 Hs.134726 ESTs 0.667 443861 AW449462 Hs.134743 ESTs 5.100 447578 AA912347 Hs.136585 ESTs, Weakly similar to JC5314 CDC28/cdc 1.691 445550 AI242754 Hs.137306 ESTs 0.006 454284 AW297935 Hs.138493 ESTs, Moderately similar to ALU7_HUMAN A 0.003 418937 T71508 Hs.13861 ESTs, Weakly similar to T42383 probable 0.042 424098 AF077374 Hs.139322 small proline-rich protein 3 1.347 453370 AI470523 Hs.139336 ATP-binding cassette, sub-family C (CFTR 0.186 424099 AF071202 Hs.139336 ATP-binding cassette, sub-family C (CFTR 47.949 426900 AW163564 Hs.142375 ESTs 0.404 439337 AA448718 Hs.142505 ESTs 0.012 427961 AW293165 Hs.143134 ESTs 0.073 419888 AI243493 Hs.144049 ESTs 11.958 413943 AW294416 Hs.144687 Homo sapiens cDNA FLJ12981 fis, clone NT 77.269 445871 AI702901 Hs.145582 ESTs, Weakly similar to FOR4 MOUSE FORMI 183.782 445911 AI985987 Hs.145645 ESTs, Moderately similar to ALU1_HUMAN A 0.362 424395 M165082 Hs.146388 microtubule-associated protein 7 203.038 424411 NM_005209 Hs.146549 crystallin, beta A2 1.808 444517 AI939339 Hs.146883 ESTs 0.004 445020 AI205655 Hs.147221 ESTs 0.307 422109 S73265 Hs.1473 gastrin-releasing peptide 1.000 445352 AI221087 Hs.147761 ESTs 0.015 444444 AI149332 Hs.14855 ESTs 140.859 444152 AI125694 Hs.149305 hypothetical protein MGC2603 2.037 446248 AI283014 Hs.149638 ESTs 0.018 433159 A9035898 Hs.150587 kinesin-like protein 2 0.110 428004 AA449563 Hs.151393 glutamate-cysteine ligase, catalytic sub 3.179 456840 H03754 Hs.152213 wingless-type MMTV integration site fami 0.005 456844 AI264155 Hs.152981 CDP-diacylglycerol synthase (phosphatida 1.111 425206 NM_002153 Hs.155109 hydroxysteroid (17-beta) dehydrogenase 2 257.949 446082 AI274139 Hs.156452 ESTs 0.779 444946 AW139205 Hs.156457 hypothetical protein FLJ22408 1.919 446636 AC002563 Hs.15767 citron (rho-interacting, serine/threonin 0.417 447073 AW204821 Hs.157726 ESTs 10.349 422765 AW409701 Hs.1578 baculoviral IAP repeat-containing 5 (sur 1.839 446673 NM_016361 Hs.15871 LPAP for lysophosphatidic acid phosphata 1.691 447475 AI380797 Hs.158992 ESTs 44.641 425776 U25128 Hs.159499 parathyroid hormone receptor 2 0.340 418343 AA216372 Hs.159501 ESTs 0.023 441143 AI027604 Hs.159650 ESTs 0.280 440917 AA909651 Hs.160025 ESTs 1.000 418365 AW014345 Hs.161690 ESTs 0.066 431839 AW020280 Hs.162025 ESTs 0.005 446839 BE091926 Hs.16244 mitotic spindle coiled-coil related prot 0.606 438817 AI023799 Hs.163242 ESTs 2.202 432441 AW292425 Hs.163484 ESTs 2.305 442577 AA292998 Hs.163900 ESTs 688.038 435212 AW300100 Hs.164185 ESTs 0.002 425048 H05468 Hs.164502 ESTs 0.083 442083 R50192 Hs.165062 ESTs 3.844 423536 L22075 Hs.1666 guanine nucleotide binding protein (G pr 0.157 418678 NM_001327 Hs.167379 cancer/testis antigen 269.487 446989 AK001898 Hs.16740 hypothetical protein FLJ11036 0.208 456967 AW004056 Hs.168357 T-box 2 160.397 447979 AI457197 Hs.170348 ESTs 0.016 458814 AI498957 Hs.170861 ESTs, Weakly similar to Z195_HUMAN ZINC 1.036 446312 BE087853 Hs.171802 ESTs, Weakly similar to T08729 RING zinc 1.334 426783 Z19084 Hs.172210 MUF1 protein 1.654 423916 AW993496 Hs.17235 Homo sapiens clone TCCCIA00176 mRNA sequ 154.064 409092 AI735283 Hs.172608 ESTs 0.007 426853 U32974 Hs.172777 baculoviral IAP repeat-containing 4 0.009 426968 U07616 Hs.173034 amphiphysin (Stiff-Mann syndrome with br 0.002 407581 R48402 Hs.173508 P3ECSL 0.866 427239 BE270447 Hs.174070 ubiquitin carrier protein 15.708 427268 X78520 Hs.174139 chloride channel 3 207.936 436577 W84774 Hs.17643 ESTs 62.333 420876 AA918425 Hs.177744 ESTs 32.959 427528 AU077143 Hs.179565 minichromosome maintenance deficient (S. 1.171 427585 D31152 Hs.179729 collagen, type X, alpha 1 (Schmid metaph 1.000 427747 AW411425 Hs.180655 serine/threonine kinase 12 12.446 429813 AW139678 Hs.180791 ESTs 0.013 439806 AA846824 Hs.180908 ESTs 0.561 427878 C05766 Hs.181022 CGI-07 protein 0.002 440284 AA912032 Hs.181059 ESTs, Weakly similar to 2108276A ssDNA-b 0.030 427922 AK001934 Hs.181112 HSPC126 protein 0.039 427972 AA864870 Hs.181304 putative gene product 0.004 428071 AF212848 Hs.182339 ets homologous factor 4.321 428336 AA503115 Hs.183752 microseminoprotein, beta- 145.128 428450 NM_014791 Hs.184339 KIAA0175 gene product 0.370 428479 Y00272 Hs.184572 cell division cycle 2, G1 to S and G2 to 0.632 438746 AI885815 Hs.184727 ESTs 0.339 420557 AA960844 Hs.186579 Homo sapiens , clone IMAGE: 4081483, mRNA 0.006 431014 W67730 Hs.187573 ESTs 0.344 428651 AF196478 Hs.188401 annexin A10 1.459 416225 AA577730 Hs.188684 ESTs, Weakly similar to PC4259 ferritin 0.502 432497 AA551104 Hs.189048 ESTs, Moderately similar to ALUC_HUMAN ! 2.499 431474 AL133990 Hs.190642 ESTs 0.044 427742 AA411880 Hs.190888 ESTs 0.158 428058 AI821625 Hs.191602 ESTs 0.006 431245 AA496933 Hs.191687 ESTs 0.006 453204 R10799 Hs.191990 ESTs 1.734 436608 AA628980 Hs.192371 down syndrome critical region protein DS 115.500 447342 AI199268 Hs.19322 Homo sapiens , Similar to RIKEN cDNA 2010 0.152 454032 W31790 Hs.194293 ESTs, Weakly similar to I54374 gene NF2 60.103 449121 AI915858 Hs.194980 ESTs 0.003 447827 U73727 Hs.19718 protein tyrosine phosphatase, receptor t 305.974 438401 AL046321 Hs.197484 ESTs, Weakly similar to JC4296 ring fing 0.002 457200 U33749 Hs.197764 thyroid transcription factor 1 0.011 429211 AF052693 Hs.198249 gap junction protein, beta 5 (connexin 3 9.390 429257 AW163799 Hs.198365 2,3-bisphosphoglycerate mutase 178.436 429276 AF056085 Hs.198612 G protein-coupled receptor 51 0.729 449818 AW594365 Hs.199365 ESTs 1.000 429345 R11141 Hs.199695 hypothetical protein 7.339 443564 AI921685 Hs.199713 ESTs 0.001 449847 AW204447 Hs.199750 organic anion transporter polypeptide-re 1.000 449351 AW016537 Hs.200760 ESTs 0.005 426322 J05068 Hs.2012 transcobalamin I (vitamin B12 binding pr 381.474 434411 AA632649 Hs.201372 ESTs 0.039 448045 AJ297436 Hs.20166 prostate stem cell antigen 2.337 446555 AV659046 Hs.201847 ESTs 0.024 450411 D61167 Hs.202156 ESTs 0.004 442282 AW451086 Hs.202390 ESTs 1.000 427587 BE348244 Hs.202628 ESTs, Weakly similar to I78885 serine/th 228.705 429486 AF155827 Hs.203963 hypothetical protein FLJ10339 0.133 426682 AV660038 Hs.2056 UDP glycosyltransferase 1 family, polype 2.070 426746 J03626 Hs.2057 uridine monophosphate synthetase (orotat 0.528 448275 BE514434 Hs.20830 kinesin-like 2 19.718 459058 H85939 Hs.209605 EST 0.005 441795 N58115 Hs.21137 AD024 protein 1.000 451592 AI805416 Hs.213897 ESTs 0.012 443367 AW071349 Hs.215937 ESTs 0.003 415949 H10562 Hs.21691 ESTs 0.072 444008 BE544855 Hs.220756 ESTs, Weakly similar to SFR4_HUMAN SPLIC 213.962 432548 AW973399 Hs.22133 hypothetical protein FLJ20121 0.250 427867 NM_005073 Hs.2217 solute carrier family 15 (oligopeptide t 0.010 453123 AI953718 Hs.221849 ESTs 0.566 439569 AW602166 Hs.222399 CEGP1 protein 10.625 428227 AA321649 Hs.2248 small inducible cytokine subfamily B (Cy 27.603 435956 AF269255 Hs.22604 lysosomal apyrase-like protein 1 127.564 453883 AI638516 Hs.22630 cofactor required for Sp 1 transcriptiona 2.216 431253 R06428 Hs.226351 ESTs 0.023 453900 AW003582 Hs.226414 ESTs, Weakly similar to ALU8_HUMAN ALU S 0.103 430034 X60155 Hs.227767 zinc finger protein 41 1.000 423017 AW178761 Hs.227948 sense (or cysteine) proteinase inhibito 0.024 417997 AA418189 Hs.23017 Homo sapiens cDNA: FLJ22747 fis, clone K 1.635 441362 BE614410 Hs.23044 RAD51 (S. cerevisiae) homolog (E coli Re 120.167 452956 AW003578 Hs.231872 ESTs 1.000 446009 AI989885 Hs.231926 ESTs 4.000 430499 AW969408 Hs.231991 ESTs 0.014 448560 BE613183 Hs.23213 ESTs 285.090 441508 AW015203 Hs.232237 ESTs 0.261 453228 AW628325 Hs.232327 ESTs 1.000 442167 H18740 Hs.23248 hypothetical protein from EUROIMAGE 2005 0.240 453321 AI984381 Hs.232521 ESTs 0.609 449207 AL044222 Hs.23255 nucleoporin 155 kD 0.551 430152 AB001325 Hs.234642 aquaponin 3 1.040 439239 AI031540 Hs.235331 ESTs 0.598 435087 AW975241 Hs.23567 ESTs 0.007 451276 AW294386 Hs.236533 ESTs, Highly similar to dJ742C19.2 [H. sa 0.012 447343 AA256641 Hs.236894 ESTs, Highly similar to S02392 alpha-2-m 1.280 431011 AA490631 Hs.23783 ESTs 0.016 430307 BE513442 Hs.238944 hypothetical protein FLJ10631 284.526 444371 BE540274 Hs.239 forkhead box M1 3.691 424264 D80400 Hs.239388 Human DNA sequence from clone RP1-B14 0.255 449722 BE280074 Hs.23960 cyclin B1 0.467 430486 BE062109 Hs.241551 chloride channel, calcium activated, fam 13.419 430168 AW968343 Hs.24255 DKFZP434l1735 protein 1.192 452292 AW139588 Hs.244369 ESTs 1.000 412661 N32860 Hs.24611 ESTs, Weakly similar to I54374 gene NF2 2.500 456682 AW500321 Hs.246766 Homo sapiens cDNA FLJ12360 fis, clone MA 0.014 457343 NM_013936 Hs.247862 olfactory receptor, family 12, subfamily 0.233 430978 U53583 Hs.248182 olfactory receptor, family 1, subfamily 1.000 431020 AF097874 Hs.248226 caspase 14, apoptosis-related cysteine p 5.866 431070 AW408164 Hs.249184 transcription factor 19 (SC1) 1.838 431098 AW501465 Hs.249230 ribonuclease L (2′,5′-oligoisoadenylate 0.004 454170 AW177225 Hs.250158 ESTs 0.243 439223 AW238299 Hs.250618 UL 16 binding protein 2 0.516 438081 H49546 Hs.251391 claudin 16 0.080 431347 AI133461 Hs.251664 insulin-like growth factor 2 (somatomedi 843.974 450663 H43540 Hs.25292 ribonuclease HI, large subunit 5.928 450684 AA872605 Hs.25333 interleukin 1 receptor, type II 1.000 413094 H24184 Hs.25413 TOLLIP protein 268.885 450796 NM_001988 Hs.25482 ennoplakin 1.643 408827 AW275730 Hs.254825 ESTs 0.008 444129 AW294292 Hs.256212 ESTs 0.002 430637 BE160081 Hs.256290 S100 calcium-binding protein A11 (calgiz 3.240 436138 H53323 Hs.25717 Homo sapiens cDNA: FLJ23454 fis, clone H 0.679 450983 AA305384 Hs.25740 ERO1 (S. cerevisiae)-like 260.231 453459 BE047032 Hs.257789 ESTs 2.133 456536 AW135986 Hs.257859 ESTs 98.795 438424 AI912498 Hs.25895 hypothetical protein FLJ14996 1.882 451161 AA211329 Hs.26006 hypothetical protein FLJ10559 0.012 430634 AI860651 Hs.26685 calcyphosine 9.561 435562 AL046988 Hs.268677 ESTs, Moderately similar to ALU7_HUMAN A 0.957 417964 R71449 Hs.268760 ESTs 0.004 445703 AV654845 Hs.27 glycine dehydrogenase (decarboxylating; 1.324 431846 BE019924 Hs.271580 uroplakin 1B 303.679 453074 AA031813 Hs.271880 ESTs 0.004 431890 X17033 Hs.271986 integrin, alpha 2 (CD49B,alpha 2 subuni 1.828 435182 AA669386 Hs.272035 ESTs, Weakly similar to gonadotropin ind 0.013 430791 AA486293 Hs.272068 ESTs, Weakly similar to ALU3_HUMAN ALU S 8.978 432136 AA157632 Hs.272630 vacuolar proton pump delta polypeptide 0.316 451939 U80456 Hs.27311 single-minded (Drosophila) homolog 2 0.014 451982 F13036 Hs.27373 Homo sapiens mRNA; cDNA DKFZp564O1763 (f 26.348 423031 AI278995 Hs.27457 ESTs 53.288 455612 BE042896 Hs.274848 ESTs 21.013 452046 AB018345 Hs.27657 KIAA0802 protein 129.013 436567 AI492860 Hs.276904 ESTs 0.007 459006 AW298631 Hs.27721 Wolf-Hirschhorn syndrome candidate 1-lik 0.031 430157 BE348706 Hs.278543 ESTs 99.244 452012 AA307703 Hs.279766 kinesin family member 4A 0.408 433001 AF217513 Hs.279905 clone HQ0310 PRO0310p1 1.721 458663 AV658444 Hs.280776 tankyrase, TRF1-interacting ankyrin-rela 38.231 450020 AI680684 Hs.282219 ESTs 0.003 435858 AF254260 Hs.283009 tuftelin 1 1.516 430733 AW975920 Hs.283361 ESTs 1.000 446024 AB040946 Hs.284227 KIAA1513 protein 9.424 433967 AF113018 Hs.284302 PRO1621 protein 0.008 438915 AA280174 Hs.285681 Williams-Beuren syndrome chromosome regi 0.030 431958 X63629 Hs.2877 cadherin 3, type 1, P-cadherin (placenta 1.058 414595 AA641726 Hs.289015 hypothetical protein MGC4171 273.013 432097 X51730 Hs.2905 progesterone receptor 0.002 452345 AA293279 Hs.29173 hypothetical protein FLJ20515 4.010 457733 AW974812 Hs.291971 ESTs 1.000 441398 AA932398 Hs.292036 ESTs, Weakly similar to B34087 hypotheti 1.000 428182 BE386042 Hs.293317 ESTs, Weakly similar to GGC1_HUMAN G ANT 0.006 452401 NM_007115 Hs.29352 tumor necrosis factor, alpha-induced pro 0.003 433365 AF026944 Hs.293797 ESTs 0.049 417151 AA194055 Hs.293858 ESTs 6.593 424242 AA337476 Hs.293984 hypothetical protein MGC13102 1.656 432375 BE536069 Hs.2962 S100 calcium-binding protein P 17.094 422424 AI186431 Hs.296638 prostate differentiation factor 2.646 432410 X68561 Hs.2982 Sp4 transcription factor 0.007 426847 S78723 Hs.298623 5-hydroxytryptamine (serotonin) receptor 0.005 454054 AI336329 Hs.301519 Homo sapiens cDNA FLJ12536 fis, clone NT 0.488 452142 AB028947 Hs.301654 KIAA1024 protein 0.009 449773 R76294 Hs.302383 ESTs 0.001 438366 AA805760 Hs.303567 ESTs 1.000 452724 R84810 Hs.30464 cyclin E2 1.000 429343 AK000785 Hs.307036 Homo sapiens , Similar to epsin 3, clone 0.494 446466 H38026 Hs.308 arrestin 3, retinal (X-arrestin) 0.022 430694 AA810624 Hs.30936 ESTs, Weakly similar to H2BH_HUMAN HISTO 16.744 432789 D26361 Hs.3104 KIAA0042 gene product 0.302 432666 AW204069 Hs.312716 ESTs, Weakly similar to unnamed protein 0.001 453028 AB006532 Hs.31442 RecQ protein-like 4 13.392 433091 Y12642 Hs.3185 lymphocyte antigen 6 complex, locus D 2.766 427122 AW057736 Hs.323910 HER2 receptor tyrosine kinase (c-erb-b2, 553.782 453216 AL137566 Hs.32405 Homo sapiens mRNA; cDNA DKFZp586G0321 (f 84.115 443247 BE614387 Hs.333893 c-Myc target JPO1 79.385 439632 AW410714 Hs.334437 hypothetical protein MGC4248 337.474 431448 AL137517 Hs.334473 hypothetical protein DKFZp564O1278 0.842 411248 AA551538 Hs.334605 Homo sapiens cDNA FLJ14408 fis, clone HE 402.500 433958 AW043909 Hs.334707 aminoacylase 1 191.179 432842 AW674093 Hs.334822 hypothetical protein MGC4485 313.462 457292 AI921270 Hs.334882 hypothetical protein FLJ14251 21.744 451359 H85334 Hs.336623 ESTs 0.038 440249 AI246590 Hs.337275 ESTs 0.432 434487 AF143867 Hs.337588 ESTs, Moderately similar to S65657 alpha 1.102 447437 U07225 Hs.339 purinergic receptor P2Y, G-protein coupl 0.483 447519 U46258 Hs.339665 ESTs 1.032 434192 AW387314 Hs.34371 ESTs 0.003 453765 BE279901 Hs.35091 hypothetical protein FLJ10775 0.056 441020 W79283 Hs.35962 ESTs 75.141 453884 AA355925 Hs.36232 KIAA0186 gene product 0.138 453922 AF053306 Hs.36708 budding uninhibited by benzimidazoles 1 0.008 453945 NM_005171 Hs.36908 activating transcription factor 1 0.044 447289 AW247017 Hs.36978 melanoma antigen, family A, 3 0.002 407626 U39196 Hs.37169 potassium inwardly-rectifying channel, s 0.009 423620 N71320 Hs.39938 ESTs 1.000 436027 AI864053 Hs.39972 ESTs, Weakly similar to 138588 reverse t 0.042 407846 AA426202 Hs.40403 Cbp/p300-interacting transactivator, wit 1.810 443133 AI033878 Hs.41379 ESTs 0.534 434534 H90477 Hs.41407 ESTs 0.013 452934 AA581322 Hs.4213 hypothetical protein MGC16207 3.679 434952 T10269 Hs.4285 Homo sapiens cDNA: FLJ22505 fis, clone H 2.885 432237 AK001926 Hs.44143 polybromo 1 0.010 420900 AL045633 Hs.44269 ESTs 10.436 408522 AI541214 Hs.46320 Small proline-rich protein SPRK [human, 3.393 435099 AC004770 Hs.4756 flap structure-specific endonuclease 1 386.256 431009 BE149762 Hs.48956 gap junction protein, beta 6 (connexin 3 0.922 408947 AL080093 Hs.49117 Homo sapiens mRNA; cDNA DKFZp564N1662 (f 0.003 435647 AI653240 Hs.49823 ESTs 175.910 435854 AJ278120 Hs.4996 putative ankyrin-repeat containing prote 2.584 436291 BE568452 Hs.5101 protein regulator of cytokinesis 1 0.610 455506 AA703584 Hs.5105 hypothetical protein FLJ10569 0.008 436481 AA379597 Hs.5199 HSPC150 protein similar to ubiquitin-con 1.089 4092807 AL080213 Hs.52792 Homo sapiens mRNA; cDNA DKFZp586l1823 (f 16.910 435047 AA454985 Hs.54973 cadherin-like protein VR20 0.612 439750 AL359053 Hs.57664 Homo sapiens mRNA full length insert cDN 5.938 439452 AA918317 Hs.57987 B-cell CLL/lymphoma 11B (zinc finger pro 1.000 439482 W70045 Hs.58089 ESTs 0.118 439606 W79123 Hs.58561 G protein-coupled receptor 87 0.095 439706 AW872527 Hs.59761 ESTs, Weakly similar to DAP1_HUMAN DEATH 0.055 452240 AI591147 Hs.61232 ESTs 0.221 452316 AA298484 Hs.61265 ESTs, Moderately similar to G786_HUMAN P 2.595 452747 BE153855 Hs.61460 Ig superfamily receptor LNIR 3.677 434876 AF160477 Hs.61460 Ig superfamily receptor LNIR 7.587 444783 AK001468 Hs.62180 anillin (Drosophila Scraps homolog), act 0.046 438779 NM_003787 Hs.6414 nucleolar protein 4 0.030 439453 BE264974 Hs.6566 thyroid hormone receptor interactor 13 12.016 440126 AA975145 Hs.66194 ESTs 0.008 451291 R39288 Hs.6702 ESTs 0.012 439963 AW247529 Hs.6793 platelet-activating factor acetylhydrola 1.653 440006 AK000517 Hs.6844 hypothetical protein FLJ20510 8.628 437044 AL035864 Hs.69517 cDNA for differentially expressed CO16 g 140.908 418107 R41726 Hs.7284 ESTs 0.146 436326 BE085236 Hs.75313 aldo-keto reductase family 1, member B1 0.649 433675 AW977653 Hs.75319 ribonucleotide reductase M2 polypeptide 0.237 414416 AW409985 Hs.76084 hypothetical protein MGC2721 2.242 414430 AI346201 Hs.76118 ubiquitin carboxyl-terminal esterase L1 0.202 414682 AL021154 Hs.76884 inhibitor of DNA binding 3, dominant neg 2.318 414807 AI738616 Hs.77348 hydroxyprostaglandin dehydrogenase 15-(N 1.622 414907 X90725 Hs.77597 polo (Drosophia)-like kinase 246.564 451575 AA767622 Hs.78893 KIAA0244 protein 1.000 400303 AA242758 Hs.79136 LIV-1 protein, estrogen regulated 4.552 416498 U33632 Hs.79351 potassium channel, subfamily K, member 1 5.128 458921 AI682088 Hs.79375 holocarboxylase synthetase (biotin-[prop 0.246 409235 AA188827 Hs.7988 ESTs, Weakly similar to I38022 hypotheti 7.249 440371 BE268550 Hs.80449 Homo sapiens , clone IMAGE: 3535294, mRNA, 0.792 452732 BE300078 Hs.80449 Homo sapiens , clone IMAGE: 3535294, mRNA, 360.782 417003 AL038170 Hs.80756 betaine-homocysteine methyltransferase 60.590 407584 W25945 Hs.8173 hypothetical protein FLJ10803 9.988 417312 AW888411 Hs.81915 leukemia-associated phosphoprotein p18 ( 402.705 417389 BE260964 Hs.82045 midkine (neurite growth-promoting factor 10.806 428839 AI767756 Hs.82302 Homo sapiens cDNA FLJ14814 fis, clone NT 1.051 438315 R56795 Hs.82419 ESTs 0.226 417900 BE250127 Hs.82906 CDC20 (cell division cycle 20, S. cerevi 26.260 417933 X02308 Hs.82962 thymidylate synthetase 221.090 418067 AI127958 Hs.83393 cystatin E/M 2.396 438086 AA336519 Hs.83623 nuclear receptor subfamily 1, group I, m 1.000 418205 L21715 Hs.83760 troponin I, skeletal, fast 0.159 413385 M34455 Hs.840 indoleamine-pyrrole 2,3 dioxygenase 0.490 418322 AA284166 Hs.84113 cyclin-dependent kinase inhibitor 3 (CDK 3.527 413529 U11874 Hs.846 interleukin 8 receptor, beta 0.077 458027 L49054 Hs.85195 myeloid leukemia factor 1 0.008 418543 NM_005329 Hs.85962 hyaluronan synthase 3 1.813 418583 AA604379 Hs.86211 hypothetical protein 125.769 441801 AW242799 Hs.86366 ESTs 55.026 414792 BE314949 Hs.87128 hypothetical protein FLJ23309 8.139 407246 S70348 Hs.87149 integrin, beta 3 (platelet glycoprotein 0.020 433417 AA587773 Hs.8859 Homo sapiens , Similar to RIKEN cDNA 5830 313.141 445060 AA830811 Hs.88808 ESTs 1.000 453450 AW797627 Hs.89474 ADP-ribosylation factor 6 137.718 419227 BE537383 Hs.89739 cholinergic receptor, nicotinic, beta po 0.006 401464 AF039241 Hs.9028 histone deacetylase 5 6.846 443162 T49951 Hs.9029 DKFZP434G032 protein 14.057 431024 AA713666 Hs.90462 Homo sapiens , clone IMAGE: 4132043, mRNA, 3.507 419559 Y07828 Hs.91096 ring finger protein 0.025 419741 NM_007019 Hs.93002 ubiquitin carrier protein E2-C 684.577 443426 AF098158 Hs.9329 chromosome 20 open reading frame 1 0.363 424457 AI249036 Hs.94292 hypothetical protein FLJ23311 175.667 410348 AW182663 Hs.95469 ESTs 0.011 439738 BE246502 Hs.9598 sema domain, immunoglobulin domain (Ig), 428.231 421478 AI683243 Hs.97258 ESTs, Moderately similar to S29539 ribos 0.005 443767 BE562136 Hs.9736 proteasome (prosome, macropain) 26S subu 1.168 426902 AI125334 Hs.97408 ESTs 37.467 444874 AI218496 Hs.97515 BRCA1-interacting protein 1; BRCA1-assoc 0.067 427356 AW023482 Hs.97849 ESTs 1.000 430000 AW205931 Hs.99598 hypothetical protein MG05338 0.812 419485 AA489023 Hs.99807 ESTs, Weakly similar to unnamed protein 0.342 420783 AI659838 Hs.99923 lectin, galactoside-binding, soluble, 7 19.785 421934 AA300625 gb: EST13476 Testis tumor Homo sapiens cD 103.769 431322 AW970622 gb: EST382704 MAGE resequences, MAGK Homo 0.258 424040 AA334400 gb: EST38610 Embryo, 9 week Homo sapiens 0.011 433108 AB002446 gb: Homo sapiens mRNA from chromosome 5q2 0.023 458829 AI557388 gb: PT2.1_6_G03.r tumor2 Homo sapiens cDN 1.000 459169 AI905517 gb: RC-BT091-210199-105 BT091 Homo sapien 0.773 400300 X03363 HER2 receptor tyrosine kinase (c-erb-b2, 468.462 440012 AA861072 gb: ak32e05.s1 Soares_testis_NHT Homo sap 0.002 412799 AI267606 gb: aq91h03.x1 Stanley Frontal SB pool 1 0.010 412964 BE019688 gb: bb28g08.x1 NIH_MGC_5 Homo sapiens cDN 0.003 406992 S82472 gb: beta -pol = DNA polymerase beta (exon a 0.005 414969 016195 gb: C16195 Clontech human aorta polyA mRN 0.023 413158 BE068098 gb: CM1-BT0368-061299-060-c09 BT0368 Homo 0.007 453823 AL137967 gb: DKFZp761D2315_r1 761 (synonym: hamy2) 0.994 453846 AL157586 gb: DKFZp761H0216_r1 761 (synonym: hamy2) 0.004 407055 X89211 gb: H. sapiens DNA for endogenous retrovir 0.037 415204 T27434 gb: hbc2294 Human pancreatic islet Homo s 76.500 434572 AF147340 gb: Homo sapiens full length insert cDNA 0.030 438990 AF085890 gb: Homo sapiens full length insert cDNA 1.000 439780 AL109688 gb: Homo sapiens mRNA full length insert 0.256 413671 Z43712 gb: HSC1JA121 normalized infant brain cDN 0.009 406974 M57293 gb: Human parathyroid hormone-related pep 0.004 455797 BE091833 gb: IL2-BT0731-260400-076-F04 BT0731 Homo 2.616 455807 BE141140 gb: MR0-HT0075-021299-006-d07 HT0075 Homo 0.413 432189 AA527941 gb: nh30c04.s1 NCI_CGAP_Pr3 Homo sapiens 0.015 443309 AI821874 gb: nt58f10.x5 NCI_CGAP_Pr3 Homo sapiens 0.007 437240 AA747537 gb: nx85c05.s1 NCI_CGAP_GCB1 Homo sapiens 0.006 455189 AW864176 gb: PM0-SN0014-260400-002-b08 SN0014 Homo 0.069 444163 AI126098 gb: qc54g07.x1 Soares_placenta_8to9weeks_(—) 394.282 455170 AW860972 gb: QV0-CT0387-180300-167-h07 CT0387 Homo 0.757 454789 BE156314 gb: QVO-HT0367-150200-114-d02 HT0367 Homo 1.000 433005 AW936074 gb: QV1-DT0069-010200-057-c12 DT0069 Homo 0.013 455380 BE160188 gb: QV1.HT0413-010200-059-g05 HT0413 Homo 0.249 455650 BE064655 gb: RC1-BT0313-301299-012-c09 BT0313 Homo 1.000 436383 BE065178 gb: RC1-BT0314-020200-012-h01 BT0314 Homo 1.000 413100 BE065208 gb: RC1-BT0314-310300-015-b09 BT0314 Homo 271.372 428436 BE080180 gb: RC4-BT0629-120200-011-b10 BT0629 Homo 0.002 455831 BE144966 gb: RC6-HT0187-201099-031-c04 HT0187 Homo 0.011 434414 AI798376 gb: tr34b07.x1 NCI_CGAP_Ov23 Homo sapiens 293.654 414221 AW450979 gb: UI-H-BI3-ala-a-12-0-UI.s1 NCI_CGAP_Su 0.807 409488 AW402825 gb: UI-HF-BK0-aaq-d-08-0-UI.r1 NIH_MGC_36 0.965 437938 AI950087 gb: wq05c02.x1 NCI_CGAP_Kid12 Homo sapien 2.952 451385 AA017656 gb: ze39h01.r1 Soares retina N2b4HR Homo 7.341 449325 AA001162 gb: ze48b06.r1 Soares retina N2b4HR Homo 0.004 413316 W91931 gb: zh47c01.r1 Soares_fetal_liver_spleen_(—) 0.004 401016 0.342 401335 0.256 401555 1.000 401760 301.372 401781 247.141 401961 1.722 402239 5.180 402305 0.917 402424 551.141 402777 153.231 402778 0.006 402837 0.367 402948 154.103 402952 17.038 403142 0.196 403297 12.744 403637 0.304 403657 0.032 404136 0.008 404249 0.065 404875 1.105 404917 69.590 404983 1.000 405238 1.000 405364 294.141 405531 1.747 405601 145.551 405621 0.224 405932 1.968 406117 0.333 406354 1.000 406548 0.002 406599 0.010 459702 AI204995 0.449

[0365] TABLE 2B Pkey CAT Number Accession 409488 1134791_1 AW402825 BE544338 412799 132817_1 AI267606 AA121045 AA126521 412964 1339278_1 BE019688 BE144460 413100 1349119_1 BE065208 BE065224 BE065168 BE065313 413158 1351251_1 BE068098 BE068119 BE068083 BE068088 BE068120 BE068155 BE068111 413316 1360169_1 W91931 W94979 BE081744 413671 1382504_1 Z43712 BE156729 BE156538 BE156731 BE156673 BE156539 BE156674 BE156430 BE156672 BE156675 BE156432 BE156541 414221 142696_1 AW450979 AA136653 AA136656 AW419381 AA984358 AA492073 BE168945 AA809054 AW238038 BE011212 BE011359 BE011367 BE011368 BE011362 BE011215 BE011365 BE011363 414969 1510393_1 C16195 C16230 C16211 C16164 C16251 415204 1529407_1 T27434 Z25288 F00323 D82802 R85077 421934 209339_1 AA300625 R16859 R16860 AW898335 W24337 424040 234659_1 AA334400 AA334257 AW966124 428436 291472_1 BE080180 AW827313 AW231970 AA995028 AA428584 AW872716 AW892508 AW854593 AA578441 AW975234 AA664937 AA984131 AA528743 AA552874 AA564758 AW063245 AI267534 AW070190 AW893483 AA770330 AA906928 AA906582 AA758746 AA551717 AW063311 AA429538 431322 331543_1 AW970622 AA503009 AA502998 AA502989 AA502805 T92188 432189 342819_1 AA527941 AI810608 AI620190 AA635266 433005 357346_1 AW939074 AW939073 BE160476 AW939938 AW939206 AW940012 AW939076 AA573577 AW750479 AA574383 AW970057 433108 35896_1 AB002446 T03146 434414 38585_1 AI798376 S46400 AW811617 AW811616 W00557 BE142245 AW858232 AW861851 AW858362 AA232351 AA218567 AA055556 AW858231 AW857541 AW814172 H66214 AW814398 AF134164 AA243093 AA173345 AA199942 AA223384 AA227092 AA227080 T12379 AA092174 T61139 AA149776 AA699829 AW879188 AW813567 AW813538 AI267168 AA57718 AA157719 AA100472 AA100774 AA130756 AA157705 AA157730 AA157715 AA053524 AW849581 AW854566 C05254 AW882836 T92637 AW812621 AA206583 AA209204 BE156909 AA226824 AI829309 AW991957 N66951 AA527374 H66215 AA045564 AI694265 H60808 AA149726 AW195620 BE081333 BE073424 AW817662 AW817705 AW817703 AW817659 BE081531 H59570 434572 38911_1 AF147340 T51948 T52029 436383 41888_1 BE065178 AJ227879 437240 435139_1 AA747537 BE089068 BE089070 437938 44573_2 AI950087 N70208 R97040 N36809 AI308119 AW967677 N35320 AI251473 H59397 AW971573 R97278 W01059 AW967671 AA908598 AA251875 AI820501 AI820532 W87891 T85904 U71456 T82391 BE328571 T75102 R34725 AA884922 BE328517 AI219788 AA884444 N92578 F13493 AA927794 AI560251 AW874068 AL134043 AW235363 AA663345 AW008282 AA488964 AA283144 AI890387 AI950344 AI741346 AI689062 AA282915 AW102898 AI872193 AI763273 AW173586 AW150329 AI653832 AI762688 AA988777 AA488892 AI356394 AW103813 AI539642 AA642789 AA856975 AW505512 AI961530 AW629970 BE612881 AW276997 AW513601 AW512843 AA044209 AW856538 AA180009 AA337499 AW961101 AA251669 AA251874 AI819225 AW205862 AI683338 AI858509 AW276905 AI633006 AA972584 AA908741 AW072629 AW513996 AA293273 AA969759 N75628 N22388 H84729 H60052 T92487 AI022058 AA780419 AA551005 W80701 AW613456 AI373032 AI564269 F00531 H83488 W37181 W78802 R66056 AI002839 R67840 AA300207 AW959581 T63226 F04005 438990 46760_1 AF085890 H29949 H29856 439780 47673_1 AL109688 R23665 R26578 440012 483290_1 AA861072 H02819 R25946 443309 56604_1 AI821874 AI821868 AA630932 AA653897 AA650103 AI821131 AI821124 444163 593658_1 AI126098 AI184746 AI148521 449325 80480_1 AA001162 AA018950 AA017505 R84446 451385 86787_1 AA017656 AA017374 AA019761 453823 982526_1 AL137967 BE064160 BE064186 453846 983043_1 AL157586 AL157590 454789 1234742_1 BE156314 BE156316 AW820750 455170 1256906_1 AW860972 AW862598 AW862599 AW860988 AW860983 AW860898 AW860925 AW860922 AW860986 AW860984 AW860989 455189 1259271_1 AW864176 AW864133 AW864185 AW864137 455380 1287679_1 BE160188 AW935785 BE160401 BE160319 BE160313 BE160395 455650 1348720_1 BE064655 BE153953 455797 1366826_1 BE091833 BE091874 BE091871 455807 1370914_1 BE141140 BE141139 BE141105 BE141143 BE141127 BE141202 BE141108 455831 1373969_1 BE144966 BE144957 BE144958 458829 773443_1 AI557388 BE158936 459169 920641_1 AI905517 AI905455 AI905452

[0366] TABLE 2C Pkey Ref Strand Nt_position 401016 8117441 Plus 126234-126359, 128050-128236 401335 9884881 Plus 15736-16352 401555 8099284 Minus 162520-162657 401760 9929699 Plus 83126-83250, 85320-85540, 94719-95287 401781 7249190 Minus 83215-83435, 83531-83656, 83740-83901, 84237-84393, 84955-85037, 86290-86814 401961 4581193 Minus 124054-124209 402239 7690131 Plus 38175-38304, 42133-42266 402305 7328724 Plus 40832-41362 402424 9796344 Minus 64925-65073 402777 9588235 Plus 126786-126948 402778 9588235 Plus 128560-128702 402837 9369121 Minus 2013-2186, 9570-9758, 11136-11309, 19429-19677, 21210-21455, 23368-23562, 24342-24527, 29132-29320 402948 9368458 Minus 143456-143626, 143808-143935 402952 9408724 Minus 119452-119619 403142 9444521 Plus 89286-90131 403297 8096824 Minus 16584-17264 403637 8671936 Minus 142647-142771, 145531-145762 403657 8843996 Minus 156223-156370 404136 6981900 Minus 42538-46428 404249 8655533 Plus 64270-64633 404875 9801324 Plus 96588-96732, 97722-97831 404917 7341851 Plus 49330-49498 404983 4432779 Minus 51178-51374, 52000-52173 405238 7249119 Minus 51728-51836 405364 2281075 Minus 48325-48491, 49136-49252 405531 9665194 Plus 35602-35803 405601 5815493 Minus 147835-147935, 149220-149299 405621 5523811 Plus 59362-59607 405932 7767812 Minus 123525-123713 406117 9142932 Plus 54304-54584 406354 9256049 Minus 2095-2377 406548 7711514 Minus 25138-26762 406599 8248616 Plus 10933-11086

[0367] TABLE 3A Preferred therapeutic targets for bladder cancer Pkey ExAccn UnigeneID Unigene Title R1 R2 421948 L42583 Hs.334309 keratin 6A 14.20 1.20 439926 AW014875 Hs.137007 ESTs 11.31 21.34 413324 V00571 Hs.75294 corticotropin releasing hormone 9.15 45.75 421110 AJ250717 Hs.1355 cathepsin E 9.07 45.35 417308 H60720 Hs.81892 KIAA0101 gene product 8.50 1.99 431211 M86849 Hs.323733 gap junction protein, beta 2, 26 kD (conn 8.39 1.28 418406 X73501 Hs.84905 cytokeratin 20 8.10 40.50 446619 AU076643 Hs.313 secreted phosphoprotein 1 (osteopontin, 7.98 1.38 433001 AF217513 Hs.279905 clone HQ0310 PRO0310p1 7.67 2.12 408243 Y00787 Hs.624 interleukin 8 7.56 4.85 417715 AW969587 Hs.86366 ESTs 7.45 4.70 417720 AA205625 Hs.208067 ESTs 7.34 9.18 423673 BE003054 Hs.1695 matrix metalloproteinase 12 (macrophage 7.30 26.07 418007 M13509 Hs.83169 matrix metalloproteinase 1 (interstitial 7.12 35.60 413753 U17760 Hs.75517 laminin, beta 3 (nicein (125 kD), kalinin 6.95 4.96 441633 AW958544 Hs.112242 normal mucosa of esophagus specific 1 6.42 0.89 422168 AA586894 Hs.112408 S100 calcium-binding protein A7 (psorias 6.08 3.49 407242 M18728 gb: Human nonspecific crossreacting antig 5.96 0.96 405033 C1002652*: gi|544327|sp|Q04799|FMO5_RABIT 5.84 16.22 449230 BE613348 Hs.211579 melanoma cell adhesion molecule 5.82 2.28 406685 M18728 gb: Human nonspecific crossreacting antig 5.80 0.89 420159 AI572490 Hs.99785 Homo sapiens cDNA: FLJ21245 fis, clone C 5.77 28.85 415511 AI732617 Hs.182362 ESTs 5.65 28.25 426028 NM_001110 Hs.172028 a disintegrin and metalloproteinase doma 5.60 6.51 424008 R02740 Hs.137555 putative chemokine receptor; GTP-binding 5.59 2.33 428651 AF196478 Hs.188401 annexin A10 5.55 27.75 400843 NM_003105*: Homo sapiens sortilin-related 5.51 4.92 402230 Target Exon 5.36 21.44 452747 BE153855 Hs.61460 Ig superfamily receptor LNIR 5.33 2.80 416065 BE267931 Hs.78996 proliferating cell nuclear antigen 5.17 1.98 428450 NM_014791 Hs.184339 KIAA0175 gene product 4.90 2.63 418322 AA284166 Hs.84113 cyclin-dependent kinase inhibitor 3 (CDK 4.77 2.35 412610 X90908 Hs.74126 fatty acid binding protein 6, ileal (gas 4.77 3.71 418663 AK001100 Hs.41690 desmocollin 3 4.74 1.48 414683 S78296 Hs.76888 hypothetical protein MGC12702 4.74 2.92 442432 BE093589 Hs.38178 hypothetical protein FLJ23468 4.68 1.61 424834 AK001432 Hs.153408 Homo sapiens cDNA FLJ10570 fis, clone NT 4.65 11.63 431958 X63629 Hs.2877 cadherin 3, type 1, P-cadherin (placenta 4.63 2.06 423725 AJ403108 Hs.132127 hypothetical protein LOC57822 4.55 3.35 401780 NM_005557*: Homo sapiens keratin 16 (foca 4.49 1.62 424308 AW975531 Hs.154443 minichromosome maintenance deficient (S. 4.43 2.39 401093 C12000586*: gi|6330167|dbj|BAA86477.1| (A 4.40 12.94 417933 X02308 Hs.82962 thymidylate synthetase 4.35 2.29 418113 AI272141 Hs.83484 SRY (sex determining region Y)-box 4 4.32 2.82 412140 AA219691 Hs.73625 RAB6 interacting, kinesin-like (rabkines 4.24 8.15 401781 Target Exon 4.15 1.31 425234 AW152225 Hs.165909 ESTs, Weakly similar to I38022 hypotheti 4.14 7.39 432842 AW674093 Hs.334822 hypothetical protein MGC4485 4.12 2.51 408380 AF123050 Hs.44532 diubiquitin 4.11 3.26 449722 BE280074 Hs.23960 cyclin B1 4.09 3.72 420344 BE463721 Hs.97101 putative G protein-coupled receptor 4.07 2.50 422809 AK001379 Hs.121028 hypothetical protein FLJ10549 4.00 7.14 404977 Insulin-like growth factor 2 (somatomedi 3.89 5.17 400409 AF153341 Homo sapiens winged helix/forkhead trans 3.88 7.29 429113 D28235 Hs.196384 prostaglandin-endoperoxide synthase 2 (p 3.87 1.61 444371 BE540274 Hs.239 forkhead box M1 3.87 2.75 443171 BE281128 Hs.9030 TONDU 3.83 9.48 441362 BE614410 Hs.23044 RAD51 (S. cerevisiae) homolog (E coli Re 3.82 2.98 439963 AW247529 Hs.6793 platelet-activating factor acetylhydrola 3.77 3.83 407137 T97307 gb: ye53h05.s1 Soares fetal liver spleen 3.73 4.91 426088 AF038007 Hs.166196 ATPase, Class I, type 8B, member 1 3.68 7.08 443426 AF098158 Hs.9329 chromosome 20 open reading frame 1 3.68 2.29 414761 AU077228 Hs.77256 enhancer of zeste (Drosophila) homolog 2 3.67 3.06 413063 AL035737 Hs.75184 chitinase 3-like 1 (cartilage glycoprote 3.67 1.18 421508 NM_004833 Hs.105115 absent in melanoma 2 3.67 3.65 443162 T49951 Hs.9029 DKFZP434G032 protein 3.66 3.21 418478 U38945 Hs.1174 cyclin-dependent kinase inhibitor 2A (me 3.66 3.57 417771 AA804698 Hs.82547 retinoic acid receptor responder (tazaro 3.62 2.73 441495 AW294603 Hs.127039 ESTs 3.60 2.71 422282 AF019225 Hs.114309 apolipoprotein L 3.57 3.92 417079 U65590 Hs.81134 interleukin 1 receptor antagonist 3.55 0.80 417275 X63578 Hs.295449 parvalbumin 3.54 4.60 440006 AK000517 Hs.6844 hypothetical protein FLJ20510 3.52 2.59 418203 X54942 Hs.83758 CDC28 protein kinase 2 3.50 3.61 400289 X07820 Hs.2258 matrix metalloproteinase 10 (stromelysin 3.50 17.50 404875 NM_022819*: Homo sapiens phospholipase A2 3.46 3.24 420005 AW271106 Hs.133294 ESTs 3.40 2.22 409757 NM_001898 Hs.123114 cystatin SN 3.39 2.93 427719 AI393122 Hs.134726 ESTs 3.31 2.51 406690 M29540 Hs.220529 carcinoembryonic antigen-related cell ad 3.28 0.42 422283 AW411307 Hs.114311 CDC45 (cell division cycle 45, S. cerevis 3.28 2.62 406081 Target Exon 3.25 13.54 426514 BE616633 Hs.170195 bone morphogenetic protein 7 (osteogenic 3.25 2.46 431009 BE149762 Hs.48956 gap junction protein, beta 6 (connexin 3 3.23 2.88 429983 W92620 Hs.260855 ESTs 3.20 2.84 422158 L10343 Hs.112341 protease inhibitor 3, skin-derived (SKAL 3.18 1.54 426451 AI908165 Hs.169946 GATA-binding protein 3 (T-cell receptor 3.17 5.44 411945 AL033527 Hs.92137 v-myc avian myelocytomatosis viral oncog 3.13 15.65 415752 BE314524 Hs.78776 putative transmembrane protein 3.11 2.46 408633 AW963372 Hs.46677 PRO2000 protein 3.11 3.30 409956 AW103364 Hs.727 inhibin, beta A (activin A, activin AB a 3.09 1.52 412420 AL035668 Hs.73853 bone morphogenetic protein 2 3.08 2.22 400297 AI127076 Hs.306201 hypothetical protein DKFZp564O1278 3.05 12.49 437931 AI249468 Hs.124434 ESTs 3.01 3.70 421451 AA291377 Hs.50831 ESTs 2.99 14.95 426682 AV660038 Hs.2056 UDP glycosyltransferase 1 family, polype 2.97 2.10 402239 Target Exon 2.97 3.37 429345 R11141 Hs.199695 hypothetical protein 2.96 2.61 435904 AF261655 Hs.8910 1,2-alpha-mannosidase IC 2.93 2.13 423961 D13666 Hs.136348 periostin (OSF-2os) 2.93 1.44 420923 AF097021 Hs.273321 differentially expressed in hematopoieti 2.92 0.95 436608 AA628980 down syndrome critical region protein DS 2.92 4.86 447343 AA256641 Hs.236894 ESTs, Highly similar to S02392 alpha-2-m 2.88 2.93 439223 AW238299 Hs.250618 UL16 binding protein 2 2.88 2.15 401747 Homo sapiens keratin 17 (KRT17) 2.88 3.44 410102 AW248508 Hs.279727 ESTs; homologue of PEM-3 [Ciona savignyi 2.86 14.30 444444 AI149332 Hs.14855 ESTs 2.85 2.68 421100 AW351839 Hs.124660 Homo sapiens cDNA: FLJ21763 fis, clone C 2.84 2.46 431070 AW408164 Hs.249184 transcription factor 19 (SC1) 2.78 2.26 417389 BE260964 Hs.82045 midkine (neurite growth-promoting factor 2.77 2.34 442994 AI026718 Hs.16954 ESTs 2.75 2.82 444381 BE387335 Hs.283713 ESTs, Weakly similar to S64054 hypotheti 2.74 2.44 434487 AF143867 Hs.337588 ESTs, Moderately similar to S65657 alpha 2.72 3.37 417003 AL038170 Hs.80756 betaine-homocysteine methyltransferase 2.69 2.70 404440 NM_021048: Homo sapiens melanoma antigen, 2.69 13.45 400844 NM_003105*: Homo sapiens sortilin-related 2.69 13.45 426322 J05068 Hs.2012 transcobalamin I (vitamin B12 binding pr 2.69 1.36 431448 AL137517 Hs.306201 hypothetical protein DKFZp564O1278 2.69 12.08 403381 ENSP00000231844*: Ecotropic virus integra 2.68 13.40 411248 AA551538 Hs.334605 Home sapiens cDNA FLJ14408 fis, clone HE 2.68 2.43 425206 NM_002153 Hs.155109 hydroxysteroid (17-beta) dehydrogenase 2 2.67 2.68 435099 AC004770 Hs.4756 flap structure-specific endonuclease 1 2.67 1.79 409361 NM_005982 Hs.54416 sine oculis homeobox (Drosophila) homolo 2.65 0.73 413281 AA861271 Hs.222024 transcription factor BMAL2 2.65 2.23 446082 AI274139 Hs.156452 ESTs 2.65 2.65 422424 AI186431 Hs.296638 prostate differentiation factor 2.64 2.68 407839 AA045144 Hs.161566 ESTs 2.64 1.08 432441 AW292425 Hs.163484 ESTs 2.64 6.14 417312 AW888411 Hs.250811 leukemia-associated phosphoprotein p18( 2.64 1.31 430157 BE348706 Hs.278543 ESTs 2.63 2.58 436481 AA379597 Hs.5199 HSPC150 protein similar to ubiquitin-con 2.61 1.93 418686 Z36830 Hs.87268 annexin A8 2.60 1.62 430486 BE062109 Hs.241551 chloride channel, calcium activated, fam 2.59 2.87 429276 AF056085 Hs.198612 G protein-coupled receptor 51 2.57 3.89 439738 BE246502 Hs.9598 sema domain, immunoglobulin domain (Ig), 2.57 2.49 409632 W74001 Hs.55279 serine (or cysteine) proteinase inhibito 2.56 1.43 414812 X72755 Hs.77367 monokine induced by gamma interferon 2.54 3.10 451668 Z43948 Hs.326444 cartilage acidic protein 1 2.51 3.60 421379 Y15221 Hs.103982 small inducible cytokine subfamily B (Cy 2.50 2.91 414416 AW409985 Hs.76084 hypothetical protein MGC2721 2.49 1.78 429612 AF062649 Hs.252587 pituitary tumor-transforming 1 2.49 1.80 416658 U03272 Hs.79432 fibrillin 2 (congenital contractural ara 2.49 3.46 437553 AI829935 Hs.130497 ESTs, Weakly similar to MAT8_HUMAN CHLOR 2.48 2.36 418941 AA452970 Hs.239527 E1B-55 kDa-associated protein 5 2.46 2.33 414807 AI738616 Hs.77348 hydroxyprostaglandin dehydrogenase 15-(N 2.44 2.49 450983 AA305384 Hs.25740 ERO1 (S. cerevisiae)-like 2.43 1.42 407788 BE514982 Hs.38991 S100 calcium-binding protein A2 2.41 2.05 449019 AI949095 Hs.67776 ESTs, Weakly similar to T22341 hypotheti 2.40 1.90 417366 BE185289 Hs.1076 small proline-rich protein 1B (cornifin) 2.40 0.49 420370 Y13645 Hs.97234 uroplakin 2 2.39 3.81 408000 L11690 Hs.198689 bullous pemphigoid antigen 1 (230/240 kD) 2.38 1.45 406399 NM_003122*: Homo sapiens serine protease 2.36 4.20 435563 AF210317 Hs.95497 solute carrier family 2 (facilitated glu 2.31 4.05 442117 AW664964 Hs.128899 ESTs; hypothetical protein for IMAGE: 447 2.31 1.17 436246 AW450963 Hs.119991 ESTs 2.30 11.50 433078 AW015188 Hs.121575 Homo sapiens cDNA FLJ12231 fis, clone MA 2.30 2.40 424012 AW368377 Hs.137569 tumor protein 63 kDa with strong homolog 2.29 1.89 411263 BE297802 Hs.69360 kinesin-like 6 (mitotic centromere-assoc 2.28 2.14 432829 W60377 Hs.57772 ESTs 2.28 4.85 415025 AW207091 Hs.72307 ESTs 2.28 11.40 436293 AI601188 Hs.120910 ESTs 2.27 3.80 415989 AI267700 ESTs 2.27 11.35 418067 AI127958 Hs.83393 cystatin E/M 2.25 1.54 436291 BE568452 Hs.344037 protein regulator of cytokinesis 1 2.25 2.45 422278 AF072873 Hs.114218 frizzled (Drosophila) homolog 6 2.25 1.55 428479 Y00272 Hs.334562 cell division cycle 2, G1 to S and G2 to 2.22 11.10 443247 BE614387 Hs.333893 c-Myc target JPO1 2.21 1.32 424364 AW383226 Hs.201189 ESTs, Weakly similar to G01763 atrophin- 2.21 1.52 405932 C15000305: gi|3806122|gb|AAC69198.1| (AFO 2.20 1.55 419741 NM_007019 Hs.93002 ubiquitin carrier protein E2-C 2.19 1.99 423271 W47225 Hs.126256 interleukin 1, beta 2.19 2.01 402305 C19000735*: gi|4508027|ref|NP_003414.1| z 2.19 2.54 421064 AI245432 Hs.101382 tumor necrosis factor, alpha-induced pro 2.19 2.16 427747 AW411425 Hs.180655 serine/threonine kinase 12 2.18 1.80 437181 AI306615 Hs.125343 ESTs, Weakly similar to KIAA0758 protein 2.17 10.85 431890 X17033 Hs.271986 integrin, alpha 2 (CD49B, alpha 2 subuni 2.17 2.14 433437 U20536 Hs.3280 caspase 6, apoptosis-related cysteine pr 2.16 1.37 407581 R48402 Hs.173508 P3ECSL 2.15 1.95 400845 NM_003105*: Homo sapiens sortilin-related 2.15 2.23 419359 AL043202 Hs.90073 chromosome segregation 1 (yeast homolog) 2.14 1.70 418526 BE019020 Hs.85838 solute carrier family 16 (monocarboxylic 2.13 1.83 448045 AJ297436 Hs.20166 prostate stem cell antigen 2.13 3.49 453459 BE047032 Hs.257789 ESTs 2.13 2.30 419183 U60669 Hs.89663 cytochrome P450, subfamily XXIV (vitamin 2.12 10.60 436251 BE515065 Hs.296585 nucleolar protein (KKE/D repeat) 2.11 1.89 445911 AI985987 Hs.145645 ESTs, Moderately similar to ALU1_HUMAN A 2.11 2.57 420876 AA918425 Hs.177744 ESTs 2.09 2.30 438817 AI023799 Hs.163242 ESTs 2.09 10.45 434293 NM_004445 Hs.3796 EphB6 2.08 2.42 422765 AW409701 Hs.1578 baculoviral IAP repeat-containing 5 (sur 2.08 2.10 418216 AA662240 Hs.283099 AF15q14 protein 2.08 4.62 437915 AI637993 Hs.202312 Homo sapiens clone N11 NTera2D1 teratoca 2.08 10.40 409420 Z15008 Hs.54451 laminin, gamma 2 (nicein (100 kD), kalini 2.05 5.39 431441 U81961 Hs.2794 sodium channel, nonvoltage-gated 1 alpha 2.05 1.20 400773 NM_003105*: Homo sapiens sortilin-related 2.05 1.78 414987 AA524394 Hs.294022 hypothetical protein FLJ14950 2.04 2.06 424687 J05070 Hs.151738 matrix metalloproteinase 9 (gelatinase B 2.04 1.70 444476 AF020038 Hs.11223 isocitrate dehydrogenase 1 (NADP), solub 2.03 2.26 447437 U07225 Hs.339 purinergic receptor P2Y, (G-protein coupl 2.02 1.73 445537 AJ245671 Hs.12844 EGF-like-domain, multiple 6 2.02 2.93 407601 AC002300 Hs.37129 sodium channel, nonvoltage-gated 1, beta 2.02 1.55 441801 AW242799 Hs.86366 ESTs 2.01 10.05 439780 AL109688 gb: Homo sapiens mRNA full length insert 2.00 10.00 452732 BE300078 Hs.80449 Homo sapiens , clone IMAGE: 3535294, mRNA, 2.00 1.53 434876 AF160477 Hs.61460 Ig superfamily receptor LNIR 2.00 1.91 430152 AB001325 Hs.234642 aquaporin 3 1.99 1.74 453134 AA032211 Hs.118493 ESTs 1.99 3.16 412719 AW016610 Hs.816 ESTs 1.99 0.34 442577 AA292998 Hs.163900 ESTs 1.99 3.09 409402 AF208234 Hs.695 cystatin B (stefin B) 1.98 1.50 414774 X02419 Hs.77274 plasminogen activator, urokinase 1.97 1.84 439318 AW837046 Hs.6527 G protein-coupled receptor 56 1.95 1.42 447334 AA515032 Hs.91109 ESTs 1.95 2.53 432015 AL157504 Hs.159115 Homo sapiens mRNA; cDNA DKFZp586O0724 (f 1.94 9.70 429002 AW248439 Hs.2340 junction plakoglobin 1.94 1.57 410553 AW016824 Hs.255527 hypothetical protein MGC14128 1.94 2.02 420783 AI659838 Hs.99923 lectin, galactoside-binding, soluble, 7 1.93 0.56 407811 AW190902 Hs.40098 cysteine knot superfamily 1, BMP antagon 1.92 1.01 448988 Y09763 Hs.22785 gamma-aminobutyric acid (GABA) A recepto 1.92 1.47 400303 AA242758 Hs.79136 LIV-1 protein, estrogen regulated 1.92 1.59 414918 AI219207 Hs.72222 hypothetical protein FLJ13459 1.92 2.77 424522 AL134847 Hs.149957 ribosomal protein S6 kinase, 90 kD, polyp 1.92 1.21 413278 BE563085 Hs.833 interferon-stimulated protein, 15 kDa 1.92 1.72 428928 BE409838 Hs.194657 cadherin 1, type 1, E-cadherin (epitheli 1.91 1.41 414595 AA641726 Hs.289015 hypothetical protein MGC4171 1.90 1.61 400846 sortilin-related receptor, L(DLR class) 1.90 1.93 417409 BE272506 Hs.82109 syndecan 1 1.89 1.75 444781 NM_014400 Hs.11950 GPI-anchored metastasis-associated prote 1.88 1.16 418867 D31771 Hs.89404 msh (Drosophila) homeo box homolog 2 1.88 3.09 419092 J05581 Hs.89603 mucin 1, transmembrane 1.88 1.18 446673 NM_016361 Hs.15871 LPAP for lysophosphatidic acid phosphata 1.87 2.01 431347 AI133461 Hs.251664 insulin-like growth factor 2 (somatomedi 1.86 1.87 430168 AW968343 Hs.24255 DKFZP434I1735 protein 1.86 2.11 412115 AK001763 Hs.73239 hypothetical protein FLJ10901 1.86 1.77 402901 NM_025206*: Homo sapiens hypothetical pro 1.85 2.35 449027 AJ271216 Hs.22880 dipeptidylpeptidase III 1.85 1.59 410418 D31382 Hs.63325 transmembrane protease, serine 4 1.84 1.90 418870 AF147204 Hs.89414 chemokine (C-X-C motif), receptor 4 (fus 1.84 1.03 414732 AW410976 Hs.77152 minichromesome maintenance deficient (S. 1.84 1.54 432210 AI567421 Hs.273330 Homo sapiens , clone IMAGE: 3544662, mRNA, 1.83 1.74 452934 AA581322 Hs.4213 hypothetical protein MGC16207 1.82 1.84 431630 NM_002204 Hs.265829 integrin, alpha 3 (antigen CD49C, alpha 1.82 1.83 427239 BE270447 Hs.174070 ubiquitin carrier protein 1.82 1.74 402424 NM_024901: Homo sapiens hypothetical prot 1.81 1.61 418068 AW971155 Hs.293902 ESTs, Weakly similar to ISHUSS protein d 1.81 3.67 431846 BE019924 Hs.271580 uroplakin 1B 1.80 4.11 410153 BE311926 Hs.15830 hypothetical protein FLJ12691 1.80 9.00 408522 AI541214 Hs.46320 Small proline-rich protein SPRK [human, 1.80 1.02 428330 L22524 Hs.2256 matrix metalloproteinase 7 (matrilysin, 1.80 2.26 451541 BE279383 Hs.26557 plakophilin 3 1.79 1.16 415786 AW419196 Hs.257924 hypothetical protein FLJ13782 1.79 5.59 424905 NM_002497 Hs.153704 NIMA (never in mitosis gene a)-related k 1.79 8.95 425852 AK001504 Hs.159651 death receptor 6, TNF superfamily member 1.79 2.08 437852 BE001836 Hs.256897 ESTs, Weakly similar to dJ365O12.1 [H. sa 1.77 2.96 437044 AL035864 Hs.69517 differentially expressed in Fanconi's an 1.76 1.43 439606 W79123 Hs.58561 G protein-coupled receptor 87 1.76 8.80 424098 AF077374 Hs.139322 small proline-rich protein 3 1.76 0.57 430890 X54232 Hs.2699 glypican 1 1.73 1.39 452862 AW378065 Hs.8687 ESTs 1.73 1.99 427335 AA448542 Hs.251677 G antigen 7B 1.73 8.65 425883 AL137708 Hs.161031 Homo sapiens mRNA; cDNA DKFZp434K0322 (f 1.72 2.07 414907 X90725 Hs.77597 polo (Drosophia)-like kinase 1.72 1.65 428484 AF104032 Hs.184601 solute carrier family 7 (cationic amino 1.72 1.03 453883 AI638516 Hs.347524 cofactor required for Sp1 transcriptiona 1.71 1.66 448993 AI471630 Hs.8127 KIAA0144 gene product 1.71 1.52 422406 AF025441 Hs.116206 Opa-interacting protein 5 1.71 5.52 428664 AK001666 Hs.189095 similar to SALL1 (sal (Drosophila)-like 1.71 8.55 444342 NM_014398 Hs.10887 similar to lysosome-associated membrane 1.71 8.55 428227 AA321649 Hs.2248 small inducible cytokine subfamily B (Cy 1.71 8.55 424735 U31875 Hs.272499 short-chain alcohol dehydrogenase family 1.71 13.98 447532 AK000614 Hs.18791 hypothetical protein FLJ20607 1.70 1.84 414053 BE391635 Hs.75725 transgelin 2 1.69 1.51 447342 AI199268 Hs.19322 Homo sapiens , Similar to RIKEN cDNA 2010 1.69 8.45 426050 AF017307 Hs.166096 E74-like factor 3 (ets domain transcript 1.69 1.60 448262 AW880830 Hs.186273 ESTs 1.67 2.07 452316 AA298484 Hs.61265 ESTs, Moderately similar to G786_HUMAN P 1.66 0.70 452240 AI591147 Hs.61232 ESTs 1.66 1.23 417151 AA194055 Hs.293858 ESTs 1.65 2.08 452461 N78223 Hs.108106 transcription factor 1.65 8.25 418462 BE001596 Hs.85266 integrin, beta 4 1.65 1.78 417900 BE250127 Hs.82906 CDC20 (cell division cycle 20, S. cerevi 1.64 1.59 438746 AI885815 Hs.184727 Human melanoma-associated antigen p97 (m 1.64 1.13 423161 AL049227 Hs.124776 downstream of cadherin 6 (by 3.3 kb) 1.63 1.81 453968 AA847843 Hs.62711 High mobility group (nonhistone chromoso 1.62 1.51 402777 C1002652*: gi|544327|sp|Q04799|FMO5_RABIT 1.62 2.33 436569 BE439539 Hs.279837 glutathione S-transferase M2 (muscle) 1.62 2.18 417515 L24203 Hs.82237 ataxia-telangiectasia group D-associated 1.62 1.27 413385 M34455 Hs.840 indoleamine-pyrrole 2,3 dioxygenase 1.61 2.05 410407 X66839 Hs.63287 carbonic anhydrase IX 1.60 1.78 450635 AW403954 Hs.25237 mesenchymal stem cell protein DSCD75 1.60 1.63 437016 AU076916 Hs.5398 guanine monphosphate synthetase 1.59 1.50 451982 F13036 Hs.27373 Homo sapiens mRNA; cDNA DKFZp564O1763 (f 1.58 1.92 422247 U18244 Hs.113602 solute carrier family 1 (high affinity a 1.57 1.79 408908 BE296227 Hs.250822 serine/threonine kinase 15 1.56 7.80 433159 AB035898 Hs.150587 kinesin-like protein 2 1.56 7.80 443211 AI128388 Hs.143655 ESTs 1.56 7.80 409893 AW247090 Hs.57101 minichromosome maintenance deficient (S. 1.55 1.44 426900 AW163564 Hs.142375 ESTs 1.54 1.93 421066 AU076725 Hs.101408 branched chain aminotransferase 2, mitoc 1.54 1.71 413804 T64682 gb: yc48b02.r1 Stratagene liver (937224) 1.53 1.55 418641 BE243136 Hs.86947 a disintegrin and metalloproteinase doma 1.53 1.59 444783 AK001468 Hs.62180 anillin (Drosophila Scraps homolog), act 1.52 7.60 414035 Y00630 Hs.75716 serine (or cysteine) proteinase inhibito 1.49 0.52 418543 NM_005329 Hs.85962 hyaluronan synthase 3 1.48 1.54 429211 AF052693 Hs.198249 gap junction protein, beta 5 (connexin 3 1.48 1.39 402260 NM_001436*: Homo sapiens fibrillarin (FBL 1.47 1.48 424264 D80400 Hs.239388 Human DNA sequence from clone RP1-304B14 1.47 7.35 433091 Y12642 Hs.3185 lymphocyte antigen 6 complex, locus D 1.47 1.37 422164 NM_014312 Hs.112377 cortic al thymocyte receptor (X. laevis 1.46 1.80 444163 AI126098 gb: qc54g07.x1 Soares_placenta_8to9weeks_(—) 1.45 1.58 452304 AA025386 Hs.61311 ESTs, Weakly similar to S10590 cysteine 1.45 1.58 445182 AW189787 ESTs 1.43 7.15 408930 AA146721 Hs.334686 hypothetical protein FLJ21588 1.43 1.53 429359 W00482 Hs.2399 matrix metalloproteinase 14 (membrane-in 1.43 1.34 406467 Target Exon 1.42 7.10 424244 AV647184 Hs.143601 hypothetical protein hCLA-iso 1.42 1.32 422094 AF129535 Hs.272027 F-box only protein 5 1.41 4.55 431322 AW970622 gb: EST382704 MAGE resequences, MAGK Homo 1.39 10.36 401760 Target Exon 1.37 1.16 425247 NM_005940 Hs.155324 matrix metalloproteinase 11 (stromelysin 1.36 1.39 424420 BE614743 Hs.146688 prostaglandin E synthase 1.33 1.49 421817 AF146074 Hs.108660 ATP-binding cassette, sub-family C (CFTR 1.31 1.44 422119 AI277829 Hs.111862 KIAA0590 gene product 1.31 1.22 418729 AB028449 Hs.87889 helicase-moi 1.30 0.84 418399 AF131781 Hs.84753 hypothetical protein FLJ12442 1.30 1.32 453028 AB006532 Hs.31442 RecQ protein-like 4 1.29 1.42 431369 BE184455 Hs.251754 secretory leukocyte protease inhibitor ( 1.29 0.61 453321 AI984381 Hs.232521 ESTs 1.27 6.35 421478 AI683243 Hs.97258 ESTs, Moderately similar to S29539 ribos 1.26 6.30 425726 AF085808 Hs.159330 uroplakin 3 1.26 2.26 406906 Z25424 gb: H. sapiens protein-serine/threonine ki 1.26 1.11 429413 NM_014058 Hs.201877 DESC1 protein 1.25 1.01 418678 NM_001327 Hs.87225 cancer/testis antigen (NY-ESO-1) 1.23 1.17 431840 AA534908 Hs.2860 POU domain, class 5, transcription facto 1.22 1.59 417433 BE270266 Hs.82128 5T4 oncofetal trophoblast glycoprotein 1.20 1.38 422397 AJ223366 Hs.116051 Homo sapiens cDNA: FLJ22495 fis, clone H 1.19 1.23 403903 C5001632*: gi|10645308|gb|AAG21430.1|AC00 1.19 1.98 425721 AC002115 Hs.159309 uroplakin 1A 1.17 2.30 413943 AW294416 Hs.144687 Homo sapiens cDNA FLJ12981 fis, clone NT 1.17 5.85 431515 NM_012152 Hs.258583 endothelial differentiation; lysophospha 1.17 1.39 443859 NM_013409 Hs.9914 follistatin 1.17 1.17 419743 AW408762 Hs.5957 Homo sapiens clone 24416 mRNA sequence 1.13 2.83 422330 D30783 Hs.115263 epiregulin 1.13 5.65 420281 AI623693 Hs.323494 Predicted cation efflux pump 1.11 5.55 424717 H03754 Hs.152213 wingless-type MMTV integration site fami 1.08 5.40 440304 BE159984 Hs.125395 ESTs 1.06 5.30 422170 AI791949 Hs.112432 anti-Mullerian hormone 1.06 1.55 417599 AA204688 Hs.62954 ESTs 1.05 1.02 411874 AA096106 Hs.20403 ESTs 1.04 7.20 449961 AW265634 Hs.133100 ESTs 1.03 0.65 418506 AA084248 Hs.85339 G protein-coupled receptor 39 1.03 0.92 432239 X81334 Hs.2936 matrix metalloproteinase 13 (collagenase 1.02 5.10 453216 AL137566 Hs.32405 Homo sapiens mRNA; cDNA DKFZp586G0321 (f 1.02 0.60 423634 AW959908 Hs.1690 heparin-binding growth factor binding pr 1.00 0.05 423017 AW178761 Hs.227948 serine (or cysteine) proteinase inhibito 1.00 0.25 453365 AA035211 Hs.17404 SOX7 SRY (sex determining region Y)-box 1.00 0.25 439239 AI031540 Hs.235331 ESTs 1.00 0.27 450684 AA872605 Hs.25333 interleukin 1 receptor, type II 1.00 0.45 425650 NM_001944 Hs.1925 desmoglein 3 (pemphigus vulgaris antigen 1.00 0.72 404403 Target Exon 1.00 1.00 406974 M57293 gb: Human parathyroid hormone-related pep 1.00 1.00 410348 AW182663 Hs.95469 ESTs 1.00 1.00 412661 N32860 Hs.24611 ESTs, Weakly similar to I54374 gene NF2 1.00 1.00 419121 AA374372 Hs.89626 parathyoid hormone-like hormone 1.00 1.00 426320 W47595 Hs.169300 transforming growth factor, beta 2 1.00 1.00 426968 U07616 Hs.173034 amphiphysin (Stiff-Mann syndrome with br 1.00 1.00 432097 X51730 Hs.2905 progesterone receptor 1.00 1.00 452401 NM_007115 Hs.29352 tumor necrosis factor, alpha-induced pro 1.00 1.00 453389 BE273648 Hs.32963 cadherin 6, type 2, K-cadherin (fetal ki 1.00 1.00 419078 M93119 Hs.89584 insulinoma-associated 1 1.00 1.25 430378 Z29572 Hs.2556 tumor necrosis factor receptor superfami 1.00 1.35 428182 BE386042 Hs.293317 ESTs, Weakly similar to GGC1_HUMAN G ANT 1.00 1.75 451844 T61430 gb: yc06a03.s1 Stratagene lung (937210) H 1.00 1.80 415178 D80503 Hs.322850 ESTs 1.00 2.20 410044 BE566742 Hs.58169 highly expressed in cancer, rich in leuc 1.00 2.25 425048 H05468 Hs.164502 ESTs 1.00 2.25 422956 BE545072 Hs.122579 ECT2 protein (Epithelial cell transformi 1.00 2.60 449448 D60730 Hs.57471 ESTs 1.00 2.70 417791 AW965339 Hs.111471 ESTs 1.00 2.95 421373 AA608229 Hs.167771 ESTs 1.00 3.00 427356 AW023482 Hs.97849 ESTs 1.00 3.15 421070 AA283185 Hs.19327 ESTs 1.00 3.25 415542 R13474 Hs.290263 ESTs, Weakly similar to I38022 hypotheti 1.00 3.35 429486 AF155827 Hs.203963 hypothetical protein FLJ10339 1.00 3.55 402075 ENSP00000251056*: Plasma membrane calcium 1.00 3.95 419559 Y07828 Hs.91096 ring finger protein 1.00 4.00 416661 AA634543 Hs.79440 IGF-II mRNA-binding protein 3 1.00 4.00 418738 AW388633 Hs.6682 solute carrier family 7, (cationic amino 1.00 4.35 412723 AA648459 Hs.335951 hypothetical protein AF301222 1.00 4.40 404877 NM_005365: Homo sapiens melanoma antigen, 1.00 4.45 443054 AI745185 Hs.8939 yes-associated protein 65 kDa 1.00 4.45 403047 NM_005656*: Homo sapiens transmembrane pr 1.00 4.50 406434 NM_030579*: Homo sapiens cytochrome b5 ou 1.00 4.65 412530 AA766268 Hs.266273 hypothetical protein FLJ13346 1.00 4.65 433365 AF026944 Hs.293797 ESTs 1.00 10.05 427666 AI791495 Hs.180142 calmodulin-like skin protein (CLSP) 0.99 0.60 429504 X99133 Hs.204238 lipocalin 2 (oncogene 24p3) 0.99 1.00 431474 AL133990 Hs.190642 CEGP1 protein 0.94 9.14 411880 AW872477 gb: hm30f03.x1 NCI_CGAP_Thy4 Homo sapiens 0.93 21.15 414221 AW450979 gb: UI-H-BI3-ala-a-12-0-UI.s1 NCI_CGAP_Su 0.91 2.60 444649 AW207523 Hs.197628 ESTs 0.89 11.15 456034 AW450979 gb: UI-H-BI3-ala-a-12-0-UI.s1 NCI_CGAP_Su 0.89 5.13 414521 D28124 Hs.76307 neuroblastoma, suppression of tumorigeni 0.84 0.85 439569 AW602166 Hs.222399 CEGP1 protein 0.84 2.42 432222 AI204995 gb: an03c03.x1 Stratagene schizo brain S1 0.81 6.75 407846 AA426202 Hs.40403 Cbp/p300-interacting transactivator, wit 0.80 0.57 457292 AI921270 Hs.281462 hypothetical protein FLJ14251 0.77 1.40 431089 BE041395 ESTs, Weakly similar to unknown protein 0.76 14.88 459702 AI204995 gb: an03c03.x1 Stratagene schizo brain S1 0.74 11.03 424503 NM_002205 Hs.149609 integrin, alpha 5 (fibronectin receptor, 0.56 0.80 406964 M21305 gb: Human alpha satellite and satellite 3 0.53 11.16 416225 AA577730 Hs.188684 ESTs, Weakly similar to PC4259 ferritin 0.48 3.01 400288 X06256 Hs.149609 integrin, alpha 5 (fibronectin receptor, 0.40 0.70 421218 NM_000499 Hs.72912 cytochrome P450, subfamily I (aromatic c 0.40 0.61

[0368] TABLE 3B Pkey CAT Number Accession 411880 1263110_1 AW872477 BE088101 T05990 413804 1390710_1 T64682 BE168190 BE168256 414221 142696_1 AW450979 AA136653 AA136656 AW419381 AA984358 AA492073 BE168945 AA809054 AW238038 BE011212 BE011359 BE011367 BE011368 BE011362 BE011215 BE011365 BE011363 415989 156454_1 AI267700 AI720344 AA191424 AI023543 AI469633 AA172056 AW958465 AA172236 AW953397 AA355086 431089 327825_1 BE041395 AA491826 AA621946 AA715980 AA666102 431322 331543_1 AW970622 AA503009 AA502998 AA502989 AA502805 T92188 432222 343347_1 AI204995 AW827539 AW969908 AW440776 AA528756 436608 42361_3 AA628980 AI126603 BE504035 439780 47673_1 AL109688 R23665 R26578 444163 593658_1 AI126098 AI184746 AI148521 445182 632151_1 AW189787 AI215430 AW268499 AW205930 AI392907 BE093017 BE093019 BE093010 451844 888230_1 T61430 AI820546 AI821336 456034 142696_1 AW450979 AA136653 AA136656 AW419381 AA984358 AA492073 BE168945 AA809054 AW238038 BE011212 BE011359 BE011367 BE011368 BE011362 BE011215 BE011365 BE011363

[0369] TABLE 3C Pkey Ref Strand Nt_position 400773 8131629 Minus 44116-44238, 48208-48321 400843 9188605 Plus 5863-5970, 7653-7784, 8892-9023, 9673-9807, 10634-10789, 15254-15403, 23827-23958 400844 9188605 Plus 24746-24872, 25035-25204 400845 9188605 Plus 34428-34612 400846 9188605 Plus 39310-39474 401093 8516137 Minus 22335-23166 401747 9789672 Minus 118596-118816, 119119-119244, 119609-119761, 120422-120990, 130161-130381, 130468-130593, 131097-131258, 131866-131932, 132451-132575, 133580-134011 401760 9929699 Plus 83126-83250, 85320-85540, 94719-95287 401780 7249190 Minus 28397-28617, 28920-29045, 29135-29296, 29411-29567, 29705-29787, 30224-30573 401781 7249190 Minus 83215-83435, 83531-83656, 83740-83901, 84237-84393, 84955-85037, 86290-86814 402075 8117407 Plus 121907-122035, 122804-122921, 124019-124161, 124455-124610, 125672-126076 402230 9966312 Minus 29782-29932 402239 7690131 Plus 38175-38304, 42133-42266 402260 3399665 Minus 113765-113910, 115653-115765, 116808-116940 402305 7328724 Plus 40832-41362 402424 9796344 Minus 64925-65073 402777 9588235 Plus 126786-126948 402901 8894222 Minus 175426-175667 403047 3540153 Minus 59793-59968 403381 9438267 Minus 26009-26178 403903 7710671 Minus 101165-102597 404403 7272157 Minus 72053-72238 404440 7528051 Plus 80430-81581 404875 9801324 Plus 96588-96732, 97722-97831 404877 1519284 Plus 1095-2107 404977 3738341 Minus 43081-43229 405033 7107731 Minus 142358-142546 405932 7767812 Minus 123525-123713 406081 9123861 Minus 38115-38691 406399 9256288 Minus 63448-63554 406434 9256651 Minus 17803-17931 406467 9795551 Plus 182212-182958

[0370] TABLE 4A Preferred diagnostics for bladder cancer Pkey ExAccn UnigeneID Unigene Title R1 R2 R3 423961 D13666 Hs.136348 periostin (OSF-2os) 11.22 1.40 1.44 446619 AU076643 Hs.313 secreted phosphoprotein 1 (osteopontin, 8.40 1.31 1.38 444381 BE387335 Hs.283713 ESTs, Weakly similar to S64054 hypotheti 7.88 2.06 2.44 408243 Y00787 Hs.624 interleukin 8 7.54 2.86 4.85 413063 AL035737 Hs.75184 chilinase 3-like 1 (cartilage glycoprote 6.14 1.18 1.18 414020 NM_002984 Hs.75703 small inducible cytokine A4 (homologous 5.32 1.34 1.36 424247 X14008 Hs.234734 Iysozyme (renal amyloidosis) 5.27 0.61 0.57 418007 M13509 Hs.83169 matrix metalloproteinase 1 (interstitial 5.17 7.47 35.60 422158 L10343 Hs.112341 protease inhibitor 3, skin-derived (SKAL 4.30 1.75 1.54 446921 AB012113 Hs.16530 small inducible cytokine subfamily A (Cy 4.29 1.35 1.60 413324 V00571 Hs.75294 corticotropin releasing hormone 4.20 6.27 45.75 412429 AV650262 Hs.75765 GRO2 oncogene 4.00 0.94 0.93 406636 L12064 gb: Homo sapiens (clone WR4.12VL)anti-th 3.66 1.25 1.25 428330 L22524 Hs.2256 matrix metalloproteinase 7 (matrilysin, 3.58 2.07 2.26 406687 M31126 matrix metalloproteinase 11 (stromelysin 3.41 4.37 3.37 422550 BE297626 Hs.296049 microfibrillar-associated protein 4 3.09 0.39 0.40 410867 X63556 Hs.750 fibrillin 1 (Marfan syndrome) 2.96 0.44 0.45 416658 U03272 Hs.79432 fibrillin 2 (congenital contractural ara 2.90 1.94 3.46 414812 X72755 Hs.77367 monokine induced by gamma interferon 2.80 1.67 3.10 423673 BE003054 Hs.1695 matrix metalloproteinase 12 (macrophage 2.77 5.62 26.07 421379 Y15221 Hs.103982 small inducible cytokine subfamily B (Cy 2.71 2.26 2.91 429500 X78565 Hs.289114 hexabrachion (tenascin C, cytotactin) 2.40 0.47 0.37 417849 AW291587 Hs.82733 nidogen 2 2.34 0.88 0.86 400419 AF084545 Target 2.33 1.54 2.12 407811 AW190902 Hs.40098 cysteine knot superfamily 1, BMP antagon 2.10 1.01 1.01 400289 X07820 Hs.2258 matrix metalloproteinase 10 (stromelysin 1.99 3.19 17.50 414774 X02419 Hs.77274 plasminogen activator, urokinase 1.94 2.49 1.84 409420 Z15008 Hs.54451 laminin, gamma 2 (nicein (100 kD), kalini 1.94 2.02 5.39 428227 AA321649 Hs.2248 small inducible cytokine subfamily B (Cy 1.84 1.99 8.55 414476 AA301867 Hs.76224 EGF-containing fibulin-like extracellula 1.76 0.33 0.31 431639 AK000680 Hs.266175 phosphoprotein associated with GEMs 1.76 1.13 1.16 421958 AA357185 Hs.109918 ras homolog gene family, member H 1.75 1.33 1.27 425247 NM_005940 Hs.155324 matrix metalloproteinase 11 (stromelysin 1.58 2.42 1.39 444342 NM_014398 Hs.10887 similar to lysosome-associated membrane 1.57 2.02 8.55 421493 BE300341 Hs.104925 ectodermal-neural cortex (with BTB-like 1.55 1.57 1.55 407939 W05608 Hs.312679 ESTs, Weakly similar to A49019 dynein he 1.41 0.79 0.67 429344 R94038 Hs.199538 inhibin, beta C 1.36 1.39 1.34 402727 NM_025065: Homo sapiens hypothetical prot 1.34 1.34 1.56 412420 AL035668 Hs.73853 bone morphogenetic protein 2 1.31 1.63 2.22 423217 NM_000094 Hs.1640 collagen, type VII, alpha 1 (epidermolys 1.27 2.00 1.67 424206 NM_003734 Hs.198241 amine oxidase, copper containing 3 (vasc 1.25 0.16 0.30 415138 C18356 Hs.295944 tissue factor pathway inhibitor 2 1.23 1.70 4.34 424479 AF064238 Hs.149098 smoothelin 1.19 0.27 0.47 445537 AJ245671 Hs.12844 EGF-like-domain, multiple 6 1.17 1.59 2.93 417079 U65590 Hs.81134 interleukin 1 receptor antagonist 1.16 0.82 0.80 421634 AA437414 Hs.106283 hypothetical protein FLJ10262 1.16 1.05 1.05 439569 AW602166 Hs.222399 CEGP1 protein 1.15 2.01 2.42 431346 AA371059 Hs.251636 ubiquitin specific protease 3 1.10 1.64 1.52 448901 AK001021 Hs.22505 hypothetical protein FLJ10159 1.10 0.31 0.31 450983 AA305384 Hs.25740 ERO1 (S. cerevisiae)-like 1.03 1.51 1.42 422424 AI186431 Hs.296638 prostate differentiation factor 1.02 2.77 2.68 458781 AI444821 Hs.63085 ESTs, Weakly similar to MPP3_HUMAN MAGUK 1.00 1.64 5.45 445413 AA151342 Hs.12677 CGI-147 protein 1.00 1.51 5.20 432350 NM_005865 Hs.274407 protease, serine, 16 (thymus) 1.00 1.55 4.30 403106 C8000064*: gi|10432393|emb|CAC10283.1| (A 1.00 1.48 4.24 402075 ENSP00000251056*: Plasma membrane calcium 1.00 1.67 3.95 404860 C1003394*: gi|12314272|emb|CAC00591.1| (A 1.00 1.40 3.90 434037 AF116601 WW domain-containing oxidoreductase 1.00 1.58 3.70 405738 CX000390*: gi|6014646|gb|AAF01438.1|AF187 1.00 1.36 2.95 427585 D31152 Hs.179729 collagen, type X, alpha 1 (Schmid metaph 1.00 1.45 1.60 439898 AW505514 Hs.209561 KIAA1715 protein 1.00 1.28 1.59 452567 D87120 Hs.29882 predicted osteoblast protein 1.00 1.10 1.31 401271 C9000559*: gi|12314195|emb|CAB99338.1| (A 1.00 2.12 1.00 411339 BE164598 Hs.274251 hypothetical protein FLJ20375; KIAA1797 1.00 2.05 1.00 403005 C21000027*: gi|1817556|dbj|BAA13672.1| (D 1.00 1.89 1.00 431146 Z83850 Human DNA sequence from PAC 82J11 and co 1.00 1.89 1.00 434939 AF161422 Hs.306567 Homo sapiens HSPC304 mRNA, partial cds 1.00 1.86 1.00 431753 X76029 Hs.2841 neuromedin U 1.00 1.82 1.00 419121 AA374372 Hs.89626 parathyroid hormone-like hormone 1.00 1.69 1.00 435505 AF200492 Hs.211238 interleukin-1 homolog 1 1.00 1.67 1.00 452401 NM_007115 Hs.29352 tumor necrosis factor, alpha-induced pro 1.00 1.67 1.00 406397 C16001447*: gi|12053709|emb|CAC20419.1| ( 1.00 1.66 1.00 404488 NM_030958*: Homo sapiens organic anion tr 1.00 1.56 1.00 441206 BE552314 Hs.131823 ESTs, Weakly similar to TERA HUMAN [H. sa 1.00 1.49 1.00 407853 AA336797 Hs.40499 dickkopf (Xanopus laevis ) homolog 1 1.00 1.47 1.00 446119 D29527 Hs.290931 ESTs 1.00 1.47 1.00 406471 Target Exon 1.00 1.44 1.00 402110 C18000178: gi|11990779|emb|CAC19649.1| (A 1.00 1.42 1.00 407911 AF104922 Hs.41565 growth differentiation factor 8 1.00 1.40 1.00 404829 C1002937*: gi|7499208|pir∥T20993 hypothe 1.00 1.37 1.00 421925 S80310 Hs.109620 acidic epididymal glycoprotein-like 1 1.00 1.26 1.00 406076 AL390179 Homo sapiens mRNA; cDNA DKFZp547P134 (fr 1.00 1.19 1.00 458622 AA972412 Hs.13755 f-box and WD-40 domain protein 2 1.00 1.09 1.00 416018 AW138239 Hs.78977 proprotein convertase subtilisin/kexin t 1.00 1.04 1.00 409357 M73628 Hs.54415 casein, kappa 1.00 1.03 1.00 436684 AW976319 Hs.94806 ATP-binding cassette, sub-family A (ABC1 1.00 0.84 0.84 436178 BE152396 Hs.21590 hypothetical protein DKFZp564O0523 1.00 0.91 0.80 402522 C1000568*: gi|12697965|dbj|BAB21801.1| (A 1.00 0.80 0.67 405735 ENSP00000252164*: KIAA1578 protein (Fragm 1.00 0.86 0.56 401905 ENSP00000252232*: Sterol regulatory eleme 1.00 0.65 0.52 404152 C6000931*: gi|9558454|dbj|BAB03398.1| (AB 1.00 0.58 0.51 418693 AI750878 Hs.87409 thrombospondin 1 1.00 0.85 0.51 451375 AI792066 Hs.283902 Homo sapiens BAC clone RP11-481J13 from 1.00 0.46 0.38 430132 AA204686 Hs.234149 hypothetical protein FLJ20647 1.00 0.84 0.33 456983 AI081687 Hs.11355 thymopoietin 1.00 0.61 0.29 438681 AW384815 Hs.149208 KIAA1555 protein 1.00 0.60 0.28 409038 T97490 Hs.50002 small inducible cytokine subfamily A (Cy 1.00 0.39 0.19 409196 NM_001874 Hs.334873 carboxypeptidase M 1.00 0.43 0.13 410023 AB017169 Hs.57929 slit (Drosophila) homolog 3 1.00 0.30 0.12 420674 NM_000055 Hs.1327 butyrylcholinesterase 1.00 0.30 0.08 415165 AW887604 Hs.78065 complement component 7 1.00 0.08 0.06 425545 N98529 Hs.158295 Homo sapiens , clone MGC: 12401, mRNA, com 1.00 0.10 0.01 448256 BE614149 Hs.20814 CGI-27 protein 0.96 1.32 1.55 417389 BE260964 Hs.82045 midkine (neurite growth-promoting factor 0.95 3.15 2.34 403214 NM_016232*: Homo sapiens interleukin 1 re 0.94 1.63 2.51 414799 AI752416 Hs.77326 insulin-like growth factor binding prote 0.92 1.87 1.60 406665 U22961 Hs.184411 albumin 0.92 1.09 1.03 401519 C15000476*: gi|12737279|ref|XP_012163.1| 0.88 1.46 3.44 417501 AL041219 Hs.82222 sema domain, immunoglobulin domain (Ig), 0.87 0.41 0.50 409632 W74001 Hs.55279 serine (or cysteine) proteinase inhibito 0.85 1.38 1.43 405494 C2001837*: gi|12697903|dbj|BAB21770.1| (A 0.83 1.46 4.65 444171 AB018249 Hs.10458 small inducible cytokine subfamily A (Cy 0.80 0.91 0.91 439706 AW872527 Hs.59761 ESTs, Weakly similar to DAP1_HUMAN DEATH 0.79 0.58 0.43 436396 AI683487 Hs.152213 wingless-type MMTV integration site fami 0.77 1.47 2.37 426716 NM_006379 Hs.171921 sema domain, immunoglobulin domain (Ig), 0.75 1.13 1.18 431347 AI133461 Hs.251664 insulin-like growth factor 2 (somatomedi 0.68 2.61 1.87 413753 U17760 Hs.75517 laminin, beta 3 (nicein (125 kD), kalinin 0.68 2.70 4.96 426322 J05068 Hs.2012 transcobalamin I (vitamin B12 binding pr 0.67 1.50 1.36 426514 BE616633 Hs.170195 bone morphogenetic protein 7 (osteogenic 0.56 2.05 2.46 422282 AF019225 Hs.114309 apolipoprotein L 0.55 3.91 3.92 409757 NM_001898 Hs.123114 cystatin SN 0.53 2.72 2.93 427450 AB014526 Hs.178121 KIAA0626 gene product 0.52 1.34 1.97 414555 N98569 Hs.76422 phospholipase A2, group IIA (platelets, 0.50 1.04 1.05 423774 L39064 Hs.1702 interleukin 9 receptor 0.49 2.81 6.46 404977 Insulin-like growth factor 2 (somatomedi 0.28 5.78 5.17 428336 AA503115 Hs.183752 microseminoprotein, beta- 0.21 1.47 1.56 451668 Z43948 Hs.326444 cartilage acidic protein 1 0.18 4.05 3.60 428651 AF196478 Hs.188401 annexin A10 0.17 5.14 27.75 421110 AJ250717 Hs.1355 cathepsin E 0.12 5.49 45.35

[0371] TABLE 4B Pkey CAT Number Accession 431146 32854_1 Z83850 AA459717 AW965384 AA333635 434037 37918_1 AF116601 AI110691 AF063566

[0372] TABLE 4C Pkey Ref Strand Nt_position 401271 9797373 Minus 61292-61911 401519 6649315 Plus 157315-157950 401905 8671966 Plus 153965-154441, 156599-156819 402075 8117407 Plus 121907-122035, 122804-122921, 124019-124161, 124455-124610, 125672-126076 402110 8131678 Minus 173889-174062 402522 9798493 Plus 20605-20731 402727 9211324 Plus 54596-54777 403005 5791501 Minus 16945-17053, 20018-20403 403106 7331404 Plus 77162-77350, 81338-81511 403214 7630945 Minus 76723-77027, 79317-79484 404152 9884757 Plus 41111-41281, 45495-45716, 47801-47910 404488 8113286 Minus 64835-64994 404829 6624702 Minus 4913-5093, 7310-7469, 9472-9621, 9951-10082 404860 8979555 Plus 65852-66081 404977 3738341 Minus 43081-43229 405494 8050952 Minus 70284-70518 405735 9931101 Minus 29854-29976 405738 9943998 Plus 44370-45410 406076 9123123 Plus 89972-90319 406397 9256243 Minus 127317-127454 406471 9795566 Plus 87383-87589

[0373] TABLE 5A Genes upregulated in bladder cancer Pkey ExAccn UnigeneID Unigene Title R1 459702 AI204995 gb: an03c03.x1 Stratagene schizo brain S1 11.03 437915 AI637993 Hs.202312 Homo sapiens clone N11 NTera2D1 teratoca 10.40 404917 Target Exon 9.65 401066 C11000517*: gi|7293105|gb|AAF48490.1| (AE 9.00 447475 AI380797 Hs.158992 ESTs 8.92 427335 AA448542 Hs.251677 G antigen 7B 8.65 450061 AI797034 Hs.346238 ESTs 8.35 401335 Target Exon 7.95 424264 D80400 Hs.239388 Human DNA sequence from clone RP1-304B14 7.35 409041 AB033025 Hs.50081 Hypothetical protein, XP_051860 (KIAA119 7.20 436608 AA628980 down syndrome critical region protein DS 4.86 451950 AW292317 Hs.213307 ESTs 4.45 406542 C19000728*: gi|12585552|sp|Q9Y2Q1|Z257_HU 3.73 437931 AI249468 Hs.124434 ESTs 3.70 443133 AI033878 Hs.41379 ESTs 3.60 434487 AF143867 Hs.337588 ESTs, Moderately similar to S65657 alpha 3.37 402239 Target Exon 3.37 443162 T49951 Hs.9029 DKFZP434G032 protein 3.21 403383 Target Exon 3.13 438315 R56795 Hs.82419 ESTs 3.04 452827 AI571835 Hs.55468 ESTs 3.01 416225 AA577730 Hs.188684 ESTs, Weakly similar to PC4259 ferritin 3.01 402948 NM_025206: Homo sapiens hypothetical prot 2.91 429983 W92620 Hs.260855 ESTs 2.84 429238 NM_002849 Hs.198288 protein tyrosine phosphatase, receptor t 2.78 444371 BE540274 Hs.239 forkhead box M1 2.75 417003 AL038170 Hs.80756 betaine-homocysteine methyltransferase 2.70 414906 AA157911 Hs.72200 ESTs 2.70 425206 NM_002153 Hs.155109 hydroxysteroid (17-beta) dehydrogenase 2 2.68 422283 AW411307 Hs.114311 CDC45 (cell division cycle 45, S. cerevis 2.62 429345 R11141 Hs.199695 hypothetical protein 2.61 414221 AW450979 gb: UI-H-BI3-ala-a-12-0-UI.s1 NCI_CGAP_Su 2.60 402305 C19000735*: gi|4508027|ref|NP_003414.1| z 2.54 432842 AW674093 Hs.334822 hypothetical protein MGC4485 2.51 427719 AI393122 Hs.134726 ESTs 2.51 455797 BE091833 gb: IL2-BT0731-260400-076-F04 BT0731 Homo 2.50 414807 AI738616 Hs.77348 hydroxyprostaglandin dehydrogenase 15-(N 2.49 456967 AW004056 Hs.168357 T-box 2 2.49 406387 Target Exon 2.48 417997 AA418189 Hs.23017 Homo sapiens cDNA: FLJ22747 fis, clone K 2.48 415752 BE314524 Hs.78776 putative transmembrane protein 2.46 411248 AA551538 Hs.334605 Homo sapiens cDNA FLJ14408 fis, clone HE 2.43 434293 NM_004445 Hs.3796 EphB6 2.42 433078 AW015188 Hs.121575 Homo sapiens cDNA FLJ12231 fis, clone MA 2.40 425997 AK000086 Hs.165948 hypothetical protein FLJ20079 2.38 418322 AA284166 Hs.84113 cyclin-dependent kinase inhibitor 3 (CDK 2.35 452012 AA307703 Hs.279766 kinesin family member 4A 2.34 445600 AF034803 Hs.12953 PTPRF interacting protein, binding prote 2.33 418941 AA452970 Hs.239527 E1B-55 kDa-associated protein 5 2.33 454609 AW810204 gb: MR4-ST0125-021199-017-d08 ST0125 Homo 2.28 444476 AF020038 Hs.11223 isocitrate dehydrogenase 1 (NADP), solub 2.26 420005 AW271106 Hs.133294 ESTs 2.22 439826 NM_014965 Hs.6705 KIAA1042 protein 2.22 405531 Target Exon 2.21 436569 BE439539 Hs.279837 glutathione S-transferase M2 (muscle) 2.18 404394 ENSP00000241075: TRRAP PROTEIN. 2.17 427479 BE410092 Hs.178471 KIAA0798 gene product 2.17 435904 AF261655 Hs.8910 1,2-alpha-mannosidase IC 2.13 431620 AA126109 Hs.264981 2′-5′-oligoadenylate synthetase 2 (69-71 2.12 426682 AV660038 Hs.2056 UDP glycosyltransferase 1 family, polype 2.10 422765 AW409701 Hs.1578 baculoviral lAP repeat-containing 5 (sur 2.10 451385 AA017656 gb: ze39h01.r1 Soares retina N2b4HR Homo 2.09 403477 C3002160*: gi|7662420|ref|NP_055738.1| KI 2.09 417151 AA194055 Hs.293858 ESTs 2.08 448262 AW880830 Hs.186273 ESTs 2.07 415192 D17793 Hs.78183 aldo-keto reductase family 1, member C3 2.04 402994 NM_002463*: Homo sapiens myxovirus (influ 2.04 426053 U68105 Hs.172182 poly(A)-binding protein, cytoplasmic 1 2.02 423271 W47225 Hs.126256 interleukin 1, beta 2.01 419741 NM_007019 Hs.93002 ubiquitin carrier protein E2-C 1.99 407581 R48402 Hs.173508 P3ECSL 1.95 410197 NM_005518 Hs.59889 3-hydroxy-3-methylglutaryl-Coenzyme A sy 1.95 427122 AW057736 Hs.323910 HER2 receptor tyrosine kinase (c-erb-b2, 1.93 436481 AA379597 Hs.5199 HSPC150 protein similar to ubiquitin-con 1.93 436251 BE515065 Hs.296585 nucleolar protein (KKE/D repeat) 1.89 401961 NM_021626: Homo sapiens serine carboxypep 1.86 434042 AI589941 Hs.8254 Home sapiens, Similar to tumor different 1.85 447532 AK000614 Hs.18791 hypothetical protein FLJ20607 1.84 418526 BE019020 Hs.85838 solute carrier family 16 (monocarboxylic 1.83 429612 AF062649 Hs.252587 pituitary tumor-transforming 1 1.80 422164 NM_014312 Hs.112377 cortic al thymocyte receptor (X. laevis 1.80 422247 U18244 Hs.113602 solute carrier family 1 (high affinity a 1.79 410407 X66839 Hs.63287 carbonic anhydrase IX 1.78 412115 AK001763 Hs.73239 hypothetical protein FLJ10901 1.77 414809 AI434699 Hs.77356 transferrin receptor (p90, CD71) 1.75 432210 AI567421 Hs.273330 Homo sapiens, clone IMAGE: 3544662, mRNA, 1.74 427239 BE270447 Hs.174070 ubiquitin carrier protein 1.74 459198 AI086347 Hs.151138 ESTs 1.74 421066 AU076725 Hs.101408 branched chain aminotransferase 2, mitoc 1.71 424687 J05070 Hs.151738 matrix metalloproteinase 9 (gelatinase B 1.70 450663 H43540 Hs.25292 ribonuclease HI, large subunit 1.70 417324 AW265494 ESTs 1.67 453883 AI638516 Hs.347524 cofactor required for Sp1 transcriptiona 1.66 428000 R35145 Hs.291904 accessory proteins BAP31/BAP29 1.65 450635 AW403954 Hs.25237 mesenchymal stem cell protein DSCD75 1.63 423397 NM_001838 Hs.1652 chemokine (C-C motif) receptor 7 1.62 415440 D83782 Hs.78442 SREBP CLEAVAGE-ACTIVATING PROTEIN 1.62 428028 U52112 Hs.182018 interleukin-1 receptor-associated kinase 1.62 426783 Z19084 Hs.172210 MUF1 protein 1.62 445937 AI452943 Hs.321231 UDP-Gal: betaGlcNAc beta 1,4-galactosylt 1.61 445462 AA378776 Hs.288649 hypothetical protein MGC3077 1.60 400965 C11002190*: gi|12737279|ref|XP_012163.1| 1.59 432269 NM_002447 Hs.2942 macrophage stimulating 1 receptor (c-met 1.59 429578 AI969028 Hs.99389 ESTs 1.59 449027 AJ271216 Hs.22880 dipeptidylpeptidase III 1.59 431840 AA534908 Hs.2860 POU domain, class 5, transcription facto 1.59 417900 BE250127 Hs.82906 CDC20 (cell division cycle 20, S. cerevi 1.59 429002 AW248439 Hs.2340 junction plakoglobin 1.57 442410 AW996503 Hs.197680 ESTs 1.56 407601 AC002300 Hs.37129 sodium channel, nonvoltage-gated 1, beta 1.55 418543 NM_005329 Hs.85962 hyaluronan synthase 3 1.54 424611 NM_001421 Hs.151139 E74-like factor 4 (ets domain transcript 1.54 414732 AW410976 Hs.77152 minichromosome maintenance deficient (S. 1.54 408930 AA146721 Hs.334686 hypothetical protein FLJ21588 1.53 448993 AI471630 Hs.8127 KIAA0144 gene product 1.52 414053 BE391635 Hs.75725 transgelin 2 1.51 433662 W07162 Hs.150826 CATX-8 protein 1.50 432562 BE531048 Hs.278422 DKFZP586G1122 protein 1.50 402260 NM_001436*: Homo sapiens fibrillarin (FBL 1.48 426127 L36983 Hs.167013 dynamin 2 1.48 427557 NM_002659 Hs.179657 plasminogen activator, urokinase recepto 1.48 418026 BE379727 Hs.83213 fatty acid binding protein 4, adipocyte 1.47 418960 NM_004494 Hs.89525 hepatoma-derived growth factor (high-mob 1.46 428293 BE250944 Hs.183556 solute carrier family 1 (neutral amino a 1.46 432344 AI476474 Hs.248156 ESTs 1.46 453449 W16752 Hs.32981 sema domain, immunoglobulin domain (lg), 1.46 450690 AA296696 Hs.333418 FXYD domain-containing ion transport reg 1.46 441940 AW298115 Hs.128152 ESTs 1.45 409893 AW247090 Hs.57101 minichromosome maintenance deficient (S. 1.44 439318 AW837046 Hs.6527 G protein-coupled receptor 56 1.42 422565 BE259035 Hs.118400 singed (Drosophila)-like (sea urchin fas 1.41 428928 BE409838 Hs.194657 cadherin 1, type 1, E-cadherin (epitheli 1.41 445417 AK001058 Hs.12680 Homo sapiens cDNA FLJ10196 fis, clone HE 1.39 441565 AW953575 Hs.303125 p53-induced protein PIGPC1 1.37 439180 AI393742 Hs.199067 v-erb-b2 avian erythroblastic leukemia v 1.35 418399 AF131781 Hs.84753 hypothetical protein FLJ12442 1.32 432636 AA340864 Hs.278562 claudin 7 1.32 439053 BE244588 Hs.6456 chaperonin containing TCP1, subunit 2 (b 1.32 413762 AW411479 Hs.848 FK506-binding protein 4 (59 kD) 1.31 453914 NM_000507 Hs.574 fructose-1,6-bisphosphatase 1 1.28 430056 X97548 Hs.228059 KRAB-asoociated protein 1 1.24 451524 AK001466 Hs.26516 hypothetical protein FLJ10604 1.23 431441 U81961 Hs.2794 sodium channel, nonvoltage-gated 1 alpha 1.20 439863 BE547830 Hs.9408 paired immunoglobulin-like receptor beta 1.19 451541 BE279383 Hs.26557 plakophilin 3 1.16 406906 Z25424 gb: H. sapiens protein-serine/threonine ki 1.11 429504 X99133 Hs.204238 lipocalin 2 (oncogene 24p3) 1.00 414002 NM_006732 Hs.75678 FBJ murine osteosarcoma viral oncogene h 0.86 431369 BE184455 Hs.251754 secretory leukocyte protease inhibitor ( 0.61

[0374] TABLE 5B Pkey CAT Number Accession 414221 142696_1 AW450979 AA136653 AA136656 AW419381 AA984358 AA492073 BE168945 AA809054 AW238038 BE011212 BE011359 BE011367 BE011368 BE011362 BE011215 BE011365 BE011363 417324 166714_1 AW265494 AA455904 AA195677 AW265432 AW991605 AA456370 436608 42361_3 AA628980 AI126603 BE504035 451385 86787_1 AA017656 AA017374 AA019761 454609 1226517_1 AW810204 AW810555 AW810196 AW810619 AW810507 455797 1366826_1 BE091833 BE091874 BE091871

[0375] TABLE 5C Pkey Ref Strand Nt_position 400965 7770576 Minus 173043-173564 401066 8217436 Plus 71448-71574 401335 9884881 Plus 15736-16352 401961 4581193 Minus 124054-124209 402239 7690131 Plus 38175-38304, 42133-42266 402260 3399665 Minus 113765-113910, 115653-115765, 116808-116940 402305 7328724 Plus 40832-41362 402948 9368458 Minus 143456-143626, 143808-143935 402994 2996643 Minus 4727-4969 403383 9438267 Minus 119837-121197 403477 9958251 Plus 111834-112008 404394 3135305 Minus 37121-37205, 37491-37762, 41053-41140, 41322-41593, 41773-41919 404917 7341851 Plus 49330-49498 405531 9665194 Plus 35602-35803 406387 9256180 Plus 116229-116371, 117512-117651 406542 7711499 Plus 117335-118473

[0376] TABLE 6A Genes upregulated in bladder cancer Pkey ExAccn UnigeneID Unigene Title R1 R2 439926 AW014875 Hs.137007 ESTs 11.31 11.31 413324 V00571 Hs.75294 corticotropin releasing hormone 9.15 9.15 421110 AJ250717 Hs.1355 cathepsin E 9.07 9.07 417308 H60720 Hs.81892 KIAA0101 gene product 8.50 8.50 418406 X73501 Hs.84905 cytokeratin 20 8.10 8.10 446619 AU076643 Hs.313 secreted phosphoprotein 1 (osteopontin, 7.98 7.98 433001 AF217513 Hs.279905 clone HQ0310 PRO0310p1 7.67 7.67 408243 Y00787 Hs.624 interleukin 8 7.56 7.56 416065 BE267931 Hs.78996 proliferating cell nuclear antigen 7.17 5.17 425397 J04088 Hs.156346 topoisomerase (DNA) II alpha (170 kD) 7.17 8.24 414183 AW957446 Hs.301711 ESTs 7.14 4.62 418007 M13509 Hs.83169 matrix metalloproteinase 1 (interstitial 7.12 7.12 426125 X87241 Hs.166994 FAT tumor suppressor (Drosophila) homolo 6.90 3.38 427337 Z46223 Hs.176663 Fc fragment of IgG, low affinity IIIb, r 6.85 4.98 441633 AW958544 Hs.112242 normal mucosa of esophagus specific 1 6.42 6.42 438091 AW373062 nuclear receptor subfamily 1, group l, m 6.32 6.32 413063 AL035737 Hs.75184 chitinase 3-like 1 (cartilage glycoprote 6.09 3.67 414219 W20010 Hs.75823 ALL1-fused gene from chromosome 1q 5.93 4.68 405033 C1002652*: gi|544327|sp|Q04799|FMO5_RABIT 5.84 5.84 413132 NM_006823 Hs.75209 protein kinase (cAMP-dependent, catalyti 5.79 5.68 428336 AA503115 Hs.183752 microseminoprotein, beta- 5.78 4.57 449230 BE613348 Hs.211579 melanoma cell adhesion molecule 5.69 5.82 423673 BE003054 Hs.1695 matrix metalloproteinase 12 (macrophage 5.69 7.30 415511 AI732617 Hs.182362 ESTs 5.65 5.65 426028 NM_001110 Hs.172028 a disintegrin and metalloproteinase doma 5.60 5.60 421948 L42583 Hs.334309 keratin 6A 5.59 14.20 428651 AF196478 Hs.188401 annexin A10 5.55 5.55 424008 R02740 Hs.137555 putative chemokine receptor; GTP-binding 5.38 5.59 406687 M31126 matrix metalloproteinase 11 (stromelysin 5.36 5.34 439453 BE264974 Hs.6566 thyroid hormone receptor interactor 13 5.35 5.35 408246 N55669 Hs.333823 mitochondrial ribosomal protein L13 5.20 3.50 427678 BE267756 Hs.180312 mitochondrial ribosomal protein S16 5.13 4.10 426158 NM_001982 Hs.199067 v-erb-b2 avian erythroblastic leukemia v 4.97 3.71 442315 AA173992 Hs.7956 ESTs, Moderately similar to ZN91_HUMAN Z 4.90 4.90 418322 AA284166 Hs.84113 cyclin-dependent kinase inhibitor 3 (CDK 4.90 4.77 417720 AA205625 Hs.208067 ESTs 4.84 7.34 423979 AF229181 Hs.136644 CS box-containing WD protein 4.81 4.81 420981 L40904 Hs.100724 peroxisome proliferative activated recep 4.81 4.43 433470 AW960564 transmembrane 4 superfamily member 1 4.72 4.72 429138 AB020657 Hs.197298 NS1-binding protein 4.71 4.71 408063 BE086548 Hs.42346 calcineurin-binding protein calsarcin-1 4.71 4.71 452714 AW770994 Hs.30340 hypothetical protein KIAA1165 4.69 4.69 442432 BE093589 Hs.38178 hypothetical protein FLJ23468 4.68 4.68 424834 AK001432 Hs.153408 Homo sapiens cDNA FLJ10570 fis, clone NT 4.65 4.65 446921 AB012113 Hs.16530 small inducible cytokine subfamily A (Cy 4.64 4.64 427490 Z95152 Hs.178695 mitogen-activated protein kinase 13 4.63 5.12 412490 AW803564 Hs.288850 Homo sapiens cDNA: FLJ22528 fis, clone H 4.61 4.61 418030 BE207573 Hs.83321 neuromedin B 4.60 4.60 401192 Target Exon 4.60 4.29 426761 AI015709 Hs.172089 Homo sapiens mRNA; cDNA DKFZp586I2022 (f 4.59 3.51 452747 BE153855 Hs.61460 Ig superfamily receptor LNIR 4.58 5.33 449618 AI076459 Hs.15978 KIAA1272 protein 4.58 4.58 423725 AJ403108 Hs.132127 hypothetical protein LOC57822 4.55 4.55 415701 NM_003878 Hs.78619 gamma-glutamyl hydrolase (conjugase, fol 4.52 4.70 446742 AA232119 Hs.16085 putative G-protein coupled receptor 4.49 4.11 419433 AA814807 Hs.7395 hypothetical protein FLJ23182 4.48 4.48 412326 R07566 Hs.73817 small inducible cytokine A3 (homologous 4.47 4.47 427528 AU077143 Hs.179565 minichromosome maintenance deficient (S. 4.45 4.45 444371 BE540274 Hs.239 forkhead box M1 4.44 3.87 444006 BE395085 Hs.10086 type I transmembrane protein Fn14 4.43 3.63 424308 AW975531 Hs.154443 minichromosome maintenance deficient (S. 4.43 4.43 401093 C12000586*: gi|6330167|dbj|BAA86477.1| (A 4.40 4.40 447644 AW861622 Hs.108646 Homo sapiens cDNA FLJ14934 fis, clone PL 4.39 4.39 417933 X02308 Hs.82962 thymidylate synthetase 4.38 4.35 409461 AA382169 Hs.54483 N-myc (and STAT) interactor 4.36 3.68 401451 NM_004496*: Homo sapiens hepatocyte nucle 4.35 4.35 450746 D82673 Hs.278589 general transcription factor II, i 4.35 3.36 414683 S78296 Hs.76888 hypothetical protein MGC12702 4.34 4.74 434203 BE262677 Hs.283558 hypothetical protein PRO1855 4.31 4.31 417615 BE548641 Hs.82314 hypoxanthine phosphoribosyltransferase 1 4.30 4.30 416815 U41514 Hs.80120 UDP-N-acetyl-alpha-D-galactosamine: polyp 4.30 4.30 440086 NM_005402 Hs.288757 v-ral simian leukemia viral oncogene hom 4.29 4.29 417715 AW969587 Hs.86366 ESTs 4.27 7.45 409757 NM_001898 Hs.123114 cystatin SN 4.24 3.39 412140 AA219691 Hs.73625 RAB6 interacting, kinesin-like (rabkines 4.24 4.24 432842 AW674093 Hs.334822 hypothetical protein MGC4485 4.21 4.12 446847 T51454 Hs.82845 Homo sapiens cDNA: FLJ21930 fis, clone H 4.20 4.20 436856 AI469355 Hs.127310 ESTs 4.19 4.19 428450 NM_014791 Hs.184339 KIAA0175 gene product 4.16 4.90 425234 AW152225 Hs.165909 ESTs, Weakly similar to I38022 hypotheti 4.14 4.14 409231 AA446644 Hs.692 GA733-2 antigen; epithelial glycoprotein 4.14 5.99 426283 NM_003937 Hs.169139 kynureninase (L-kynurenine hydrolase) 4.12 4.12 446849 AU076617 Hs.16251 cleavage and polyadenylation specific fa 4.12 3.43 400843 NM_003105*: Homo sapiens sortilin-related 4.11 5.51 449722 BE280074 Hs.23960 cyclin B1 4.09 4.09 405506 Target Exon 4.09 3.75 420344 BE463721 Hs.97101 putative G protein-coupled receptor 4.07 4.07 426997 BE620738 Hs.173125 peptidylprolyl isomerase F (cyclophilin 4.05 4.80 456525 AW468397 Hs.100000 S100 calcium-binding protein A8 (calgran 4.03 7.64 437150 R51407 Hs.77910 3-hydroxy-3-methylglutaryl-Coenzyme A sy 4.02 4.02 413794 AF234532 Hs.61638 myosin X 4.02 4.02 422511 AU076442 Hs.117938 collagen, type XVII, alpha 1 4.02 4.72 414020 NM_002984 Hs.75703 small inducible cytokine A4 (homologous 4.01 3.99 416391 AI878927 Hs.79284 mesoderm specific transcript (mouse) hom 4.01 4.01 422809 AK001379 Hs.121028 hypothetical protein FLJ10549 4.00 4.00 400277 Eos Control 4.00 3.47 415791 H09366 Hs.78853 uracil-DNA glycosylase 3.99 3.37 412610 X90908 Hs.74126 fatty acid binding protein 6, ileal (gas 3.98 4.77 427557 NM_002659 Hs.179657 plasminogen activator, urokinase recepto 3.98 3.95 413753 U17760 Hs.75517 laminin, beta 3 (nicein (125 kD), kalinin 3.96 6.95 420859 AW468397 Hs.100000 S100 calcium-binding protein A8 (calgran 3.92 5.04 400409 AF153341 Homo sapiens winged helix/forkhead trans 3.91 3.88 408988 AL119844 Hs.49476 Homo sapiens clone TUA8 Cri-du-chat regi 3.90 3.90 411678 AI907114 Hs.71465 squalene epoxidase 3.89 3.89 429113 D28235 Hs.196384 prostaglandin-endoperoxide synthase 2 (p 3.87 3.87 428428 AL037544 Hs.184298 cyclin-dependent kinase 7 (homolog of Xe 3.87 3.87 442932 AA457211 Hs.8858 bromodomain adjacent to zinc finger doma 3.85 4.50 429083 Y09397 Hs.227817 BCL2-related protein A1 3.85 3.85 439963 AW247529 Hs.6793 platelet-activating factor acetylhydrola 3.82 3.77 441362 BE614410 Hs.23044 RAD51 (S. cerevisiae) homolog (E coli Re 3.82 3.82 430589 AJ002744 Hs.246315 UDP-N-acetyl-alpha-D-galactosamine: polyp 3.81 3.81 417771 AA804698 Hs.82547 retinoic acid receptor responder (tazaro 3.81 3.62 430259 BE550182 Hs.127826 RalGEF-like protein 3, mouse homolog 3.80 3.80 447973 AB011169 Hs.20141 similar to S. cerevisiae SSM4 3.77 3.77 404875 NM_022819*: Homo sapiens phospholipase A2 3.77 3.46 411299 BE409857 Hs.69499 hypothetical protein 3.76 3.76 418827 BE327311 Hs.47166 HT021 3.76 3.76 446839 BE091926 Hs.16244 mitotic spindle coiled-coil related prot 3.75 3.75 407137 T97307 gb: ye53h05.s1 Soares fetal liver spleen 3.73 3.73 433376 AI249361 Hs.74122 caspase 4, apoptosis-related cysteine pr 3.71 3.71 400294 N95796 Hs.278695 Homo sapiens prostein mRNA, complete cds 3.70 3.45 409518 BE384836 Hs.3454 KIAA1821 protein 3.69 3.69 430024 AI808780 Hs.227730 integrin, alpha 6 3.69 3.69 426088 AF038007 Hs.166196 ATPase, Class I, type 8B, member 1 3.68 3.68 418478 U38945 Hs.1174 cyclin-dependent kinase inhibitor 2A (me 3.68 3.66 414761 AU077228 Hs.77256 enhancer of zeste (Drosophila) homolog 2 3.67 3.67 413670 AB000115 Hs.75470 hypothetical protein, expressed in osteo 3.67 3.41 424840 D79987 Hs.153479 extra spindle poles, S. cerevisiae, homo 3.67 3.88 434263 N34895 Hs.44648 ESTs 3.65 3.65 438280 AW015534 Hs.217493 annexin A2 3.63 3.36 443426 AF098158 Hs.9329 chromosome 20 open reading frame 1 3.63 3.68 408989 AW361666 Hs.49500 KIAA0746 protein 3.61 3.66 416640 BE262478 Hs.79404 neuron-specific protein 3.60 4.22 416926 H03109 Hs.108920 HT018 protein 3.59 3.59 414368 W70171 Hs.75939 uridine monophosphate kinase 3.59 3.53 402727 NM_025065: Homo sapiens hypothetical prot 3.58 3.58 419381 AB023420 Hs.90093 heat shock 70 kD protein 4 3.56 3.77 416114 AI695549 Hs.183868 glucuronidase, beta 3.55 3.55 424941 AA128376 Hs.153884 ATP binding protein associated with cell 3.55 3.55 431958 X63629 Hs.2877 cadherin 3, type 1, P-cadherin (placenta 3.54 4.63 429238 NM_002849 Hs.198288 protein tyrosine phosphatase, receptor t 3.53 3.92 420159 AI572490 Hs.99785 Homo sapiens cDNA: FLJ21245 fis, clone C 3.51 5.77 400289 X07820 Hs.2258 matrix metalloproteinase 10 (stromelysin 3.50 3.50 418203 X54942 Hs.83758 CDC28 protein kinase 2 3.50 3.50 415220 AA431880 Hs.181174 ESTs, Weakly similar to T19201 hypotheti 3.50 3.50 428371 AB012193 Hs.183874 cullin 4A 3.46 3.46 418663 AK001100 Hs.41690 desmocollin 3 3.45 4.74 404977 Insulin-like growth factor 2 (somatomedi 3.45 3.89 422663 AW500087 Hs.119014 zinc finger protein 175 3.44 3.44 434061 AW024973 Hs.283675 NPD009 protein 3.41 5.64 418113 AI272141 Hs.83484 SRY (sex determining region Y)-box 4 3.41 4.32 431689 AA305688 Hs.267695 UDP-Gal: betaGlcNAc beta 1,3-galactosyltr 3.40 3.40 411943 BE502436 Hs.7962 ESTs, Weakly similar to S44608 C02F5.6 p 3.39 4.27 420005 AW271106 Hs.133294 ESTs 3.38 3.40 453450 AW797627 Hs.347459 ADP-ribosylation factor 6 3.38 3.87 410315 AI638871 Hs.17625 Homo sapiens cDNA: FLJ22524 fis, clone H 3.36 3.36 428839 AI767756 Hs.82302 Homo sapiens cDNA FLJ14814 fis, clone NT 3.35 3.35 437469 AW753112 Hs.15514 hypothetical protein MGC3260 3.35 3.35 407151 H25836 Hs.301527 ESTs, Moderately similar to unknown [H. s 3.34 3.34 428157 AI738719 Hs.198427 hexokinase 2 3.33 3.73 450293 N36754 Hs.171118 hypothetical protein FLJ00026 3.33 3.33 400750 Target Exon 3.33 3.33 450139 AK001838 Hs.296323 serum/glucocorticoid regulated kinase 3.33 3.33 412636 NM_004415 desmoplakin (DPI, DPII) 3.30 4.81 447578 AA912347 Hs.136585 ESTs, Weakly similar to JC5314 CDC28/cdc 3.27 3.38 430315 NM_004293 Hs.239147 guanine deaminase 3.26 4.30 421594 R45689 Hs.21889 Homo sapiens cDNA FLJ12978 fis, clone NT 3.26 3.41 443030 R68048 Hs.9238 hypothetical protein FLJ23516 3.19 3.34 436911 AA142984 Hs.5344 adaptor-related protein complex 1, gamma 3.17 3.40 440006 AK000517 Hs.6844 hypothetical protein FLJ20510 3.06 3.52 443171 BE281128 Hs.9030 TONDU 3.05 3.83 429343 AK000785 Hs.199480 Homo sapiens, Similar to epsin 3, clone 3.01 3.53 408380 AF123050 Hs.44532 diubiquitin 2.99 4.11 421508 NM_004833 Hs.105115 absent in melanoma 2 2.99 3.67 439750 AL359053 Hs.57664 Homo sapiens mRNA full length insert cDN 2.97 4.55 452046 AB018345 Hs.27657 KIAA0802 protein 2.95 3.39 451940 AI735759 Hs.52620 integrin, beta 8 2.93 3.58 407722 BE252241 Hs.38041 pyridoxal (pyridoxine, vitamin B6) kinas 2.90 3.68 422282 AF019225 Hs.114309 apolipoprotein L 2.89 3.57 402230 Target Exon 2.88 5.36 406685 M18728 gb: Human nonspecific crossreacting antig 2.80 5.80 417880 BE241595 Hs.82848 selectin L (lymphocyte adhesion molecule 2.79 3.89 447957 NM_014821 Hs.20126 KIAA0317 gene product 2.75 3.45 418004 U37519 Hs.87539 aldehyde dehydrogenase 3 family, member 2.75 3.46 417275 X63578 Hs.295449 parvalbumin 2.73 3.54 431211 M86849 Hs.323733 gap junction protein, beta 2, 26 kD (conn 2.72 8.39 401781 Target Exon 2.62 4.15 407242 M18728 gb: Human nonspecific crossreacting antig 2.54 5.96 428423 AU076517 Hs.184276 solute carrier family 9 (sodium/hydrogen 2.52 4.27 430200 BE613337 Hs.234896 geminin 2.52 4.19 451035 AU076785 Hs.430 plastin 1 (I isoform) 2.51 4.15 443162 T49951 Hs.9029 DKFZP434G032 protein 2.48 3.66 441495 AW294603 Hs.127039 ESTs 2.45 3.60 449246 AW411209 Hs.23363 hypothetical protein FLJ10983 2.45 3.52 401780 NM_005557*: Homo sapiens keratin 16 (foca 2.22 4.49 417079 U65590 Hs.81134 interleukin 1 receptor antagonist 2.20 3.55 422168 AA586894 Hs.112408 S100 calcium-binding protein A7 (psorias 2.15 6.08 439394 AA149250 Hs.56105 ESTs 2.05 3.95 427315 AA179949 Hs.175563 Home sapiens mRNA; cDNA DKFZp564N0763 (f 1.79 3.88

[0377] TABLE 6B Pkey CAT Number Accession 412636 13165_1 NM_004415 AL031058 M77830 BE149760 AW752599 AW848723 AW376697 AW376817 AW376699 AW848371 AW376782 AW848789 AW361413 AW849074 AW997139 AW799304 AW799309 BE077020 BE077017 BE185187 AW997196 BE156621 BE179915 BE006561 BE143155 AW890985 BE002107 AW103521 AA857316 AW383133 BE011378 AW170253 BE185750 AW886475 BE160433 J05211 BE082576 BE082584 BE004047 AW607238 AW377700 AW377699 BE082526 BE082505 BE082507 BE082514 AW178000 AW177933 AI905935 AW747877 AW748114 BE148516 AW265328 AW847678 AW847688 AW365151 AW365148 AW365153 AW365156 AW365175 AW365157 AW365154 AW068840 BE005272 AW365145 BE001925 BE182166 BE144243 BE001923 AI951766 AI434518 BE184920 BE184933 AI284090 BE184941 AW804674 BE184924 C04715 W39488 AW995615 BE184948 BE159646 AW606653 AA099891 AA131128 AA337270 AA340777 AW384371 AA852212 R58704 AW366566 AW364859 AA025851 AA025852 AA455100 AA719958 AW352220 AW996245 BE165351 BE073467 AA377127 AW890264 AW609750 AW391912 AW849690 T87267 AW853812 AA852213 W74149 BE009090 AA056401 H91011 AW368529 AW390272 C18467 AW674920 N57176 AA026480 AW576767 H93284 AA026863 AW177787 AA026654 AW177786 BE092134 BE092137 BE092136 AW177784 AI022862 BE091653 AW376811 AW848592 AA040018 BE185331 BE182164 AA368564 AW951576 T29918 AA131077 W95048 W25458 AW205789 H90899 N29754 W32490 R20904 BE167181 BE167165 N84767 H27408 H30146 AI190590 C03378 AI554403 AI205263 AA128470 AI392926 AF139065 AW370813 AW370827 AW798417 AW798780 AW798883 AW798569 R33557 AA149190 C03029 AW177783 AA088866 AW370829 AA247685 BE002273 AI760816 AI439101 AW879451 AI700963 AA451923 AI340326 AI590975 T48793 AI568096 AI142882 AA039975 AI470146 AA946936 BE067737 BE067786 W19287 AA644381 AA702424 AI417612 AI306554 AI686869 AI568892 AW190555 AI571075 AI220573 AA056527 AI471874 AI304772 AW517828 AI915596 AI627383 AI270345 AW021347 AW166807 AW105614 AI346078 AA552300 W95070 AI494069 AI911702 AA149191 AA026864 AI830049 AI887258 AW780435 AI910434 AI819984 AI858282 AI078449 AI025932 AI860584 AI635878 AA026047 AA703232 D12062 AW192085 AA658154 AW514597 AW591892 T87181 AA782066 AW243815 AW150038 AW268383 AW004633 AI927207 AA782109 AW473233 AI804485 AW169216 AI572669 AA602182 AW015480 AW771865 AI270027 AA961816 AA283207 AI076962 AI498487 AI348053 AI783914 H44405 AW799118 AA128330 AA515500 AA918281 W02156 AI905927 AA022701 W38382 R20795 T77861 AW860878 433470 3672_1 AW960564 AA092457 T55890 D56120 T92525 AI815987 BE182608 BE182595 AW080238 M90657 AA347236 AW961686 AW176446 AA304671 AW583735 T61714 AA316968 AI446615 AA343532 AA083489 AA488005 W52095 W39480 N57402 D82638 W25540 W52847 D82729 D58990 BE619182 AA315188 AA308636 AA112474 W76162 AA088544 H52265 AA301631 H80982 AA113786 BE620997 AW651691 AA343799 BE613669 BE547180 BE546656 F11933 AA376800 AW239185 AA376086 BE544387 BE619041 AA452515 AA001806 AA190873 AA180483 AA159546 F00242 AI940609 AI940602 AI189753 T97663 T66110 AW062896 AW062910 AW062902 AI051622 AI828930 AA102452 AI685095 AI819390 AA557597 AA383220 AI804422 AI633575 AW338147 AW603423 AW606800 AW750567 AW510672 AI250777 AA083510 AW629109 AW513200 AA921353 AI677934 AI148698 AI955858 AA173825 AA453027 AI027865 AW375542 AA454099 AA733014 AI591384 R79300 R80023 AA843108 AA626058 AA844898 AW375550 AA889018 AI474275 AW205937 AI052270 AW388117 AW388111 AA699452 AI242230 N47476 H38178 AA366621 AA113196 AA130023 H39740 T61629 AI885973 AW083671 AA179730 AA305757 AI285455 N83956 AA216013 AA336155 AW999959 T97525 AA345349 T91762 AA771981 AI285092 AI591386 BE392486 BE385852 AA682601 AI682884 AA345840 T85477 AA292949 AA932079 AA098791 D82607 T48574 AW752038 C06300 438091 44964_1 AW373062 T55662 AI299190 BE174210 AW579001 H01811 W40186 R67100 AI923886 AW952164 AA628440 AW898607 AW898616 AA709126 AW898628 AW898544 AA947932 AW898625 AW898622 AI276125 AI185720 AW510698 AA987230 T52522 BE467708 AW243400 AW043642 AI288245 AI186932 D52654 D55017 D52715 D52477 D53933 D54679 AI298739 AI146984 AI922204 N98343 BE174213 AA845571 AI813854 AI214518 AI635262 AI139455 AI707807 AI698085 AW884528 AI024768 AI004723 AW087420 AI565133 N94964 AI268939 AW513280 AI061126 AI435818 AI859106 AI360506 AI024767 AA513019 AA757598 X56196 AA902959 AI334784 AI860794 AA010207 AW890091 AW513771 AI951391 AI337671 T52499 AA890205 AI640908 H75966 AA463487 AA358688 AI961767 AI866295 AA780994 AI985913 BE174196 AA029094 AW592159 T55581 N79072 AI611201 AA910812 AI220713 AW149306 AI758412 AA045713 R79750 N76096

[0378] TABLE 6C Pkey Ref Strand Nt_position 400750 8119067 Plus 198991-199168, 199316-199548 400843 9188605 Plus 5863-5970, 7653-7784, 8892-9023, 9673-9807, 10634-10789, 15254-15403, 23827-23958 401093 8516137 Minus 22335-23166 401192 9719502 Minus 69559-70101 401451 6634068 Minus 119926-121272 401780 7249190 Minus 28397-28617, 28920-29045, 29135-29296, 29411-29567, 29705-29787, 30224-30573 401781 7249190 Minus 83215-83435, 83531-83656, 83740-83901, 84237-84393, 84955-85037, 86290-86814 402230 9966312 Minus 29782-29932 402727 9211324 Plus 54596-54777 404875 9801324 Plus 96588-96732, 97722-97831 404977 3738341 Minus 43081-43229 405033 7107731 Minus 142358-142546 405506 6466489 Plus 80014-80401, 80593-81125

[0379] TABLE 7A Genes downregulated in bladder cancer Pkey ExAccn UnigeneID Unigene Title R1 R2 403010 C21000152: gi|6226483|sp|Q52118|YMO3_ERWS 4.86 2.49 426796 S78234 Hs.172405 cell division cycle 27 4.28 2.48 416225 AA577730 Hs.188684 ESTs, Weakly similar to PC4259 ferritin 4.04 2.07 459006 AW298631 Hs.27721 Wolf-Hirschhorn syndrome candidate 1-lik 3.82 2.66 404917 Target Exon 3.78 2.00 426488 X03350 Hs.4 alcohol dehydrogenase 1B (class I), beta 2.64 1.79 419543 AA244170 gb: nc05h02.s1 NCI_CGAP_Pr1 Homo sapiens 2.63 3.42 453180 N46243 Hs.110373 ESTs, Highly similar to T42626 secreted 2.32 3.24 428957 NM_003881 Hs.194679 WNT1 inducible signaling pathway protein 2.20 3.80 451529 AI917901 Hs.208641 ESTs 2.18 3.69 417076 AW973454 Hs.238442 ESTs, Moderately similar to ALU7_HUMAN A 2.03 3.03 425438 T62216 Hs.270840 ESTs 2.00 5.17 450515 AW304226 biphenyl hydrolase-like (serine hydrolas 1.89 2.46 432873 AW837268 Hs.279639 Homo sapiens mRNA; cDNA DKFZp586M2022 (f 1.70 2.79 452123 AI267615 Hs.38022 ESTs 1.69 2.46 424378 W28020 Hs.167988 neural cell adhesion molecule 1 1.65 4.67 437601 AA761546 Hs.248844 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.50 3.34 402096 ENSP00000217725*: Laminin alpha-1 chain p 1.48 3.02 439563 AI018768 Hs.12482 glyceronephosphate O-acyltransferase 1.47 3.22 412810 M21574 Hs.74615 platelet-derived growth factor receptor, 1.46 2.30 458651 AW612481 Hs.104105 ESTs 1.39 2.89 414033 AL079707 Hs.207443 hypothetical protein MGC10848 1.36 2.80 433572 AL046859 Hs.3407 protein kinase (cAMP-dependent, catalyti 1.35 3.49 413305 NM_000426 Hs.323511 Homo sapiens cDNA: FLJ23176 fis, clone L 1.34 2.93 420412 AW976674 Hs.125103 ESTs 1.32 5.13 421406 AF179897 Hs.104105 Meis (mouse) homolog 2 1.31 4.07 417446 AL118671 Hs.82163 monoamine oxidase B 1.27 2.86 452886 AI478250 Hs.13751 ESTs 1.26 1.95 446808 AA703226 Hs.16193 Homo sapiens mRNA; cDNA DKFZp586B211 (fr 1.25 3.44 443105 X96753 Hs.9004 chondroitin sulfate proteoglycan 4 (mela 1.24 2.07 421348 M94048 Hs.103724 peripheral myelin protein 22 1.24 2.63 433070 N75346 Hs.306121 CDC20 (cell division cycle 20, S. cerevi 1.23 2.80 420059 AF161486 Hs.94769 RAB23, member RAS oncogene family 1.22 3.43 408491 AI088063 Hs.7882 ESTs 1.20 6.01 447384 AI377221 Hs.40528 ESTs 1.00 7.92 421998 R74441 Hs.117176 poly(A)-binding protein, nuclear 1 1.00 7.38 409619 AK001015 Hs.55220 BCL2-associated athanogene 2 1.00 6.40 444795 AI193356 Hs.160316 ESTs 1.00 5.53 408495 W68796 Hs.237731 ESTs 1.00 5.05 417124 BE122762 Hs.25338 ESTs 1.00 4.73 443998 AI620661 Hs.296276 ESTs 1.00 4.39 406303 C16000922: gi|7499103|pir∥T20903 hypothe 1.00 4.37 422994 AW891802 Hs.296276 ESTs 1.00 4.37 422195 AB007903 Hs.113082 KIAA0443 gene product 1.00 4.35 452877 AI250789 Hs.32478 ESTs 1.00 3.90 452487 AW207659 Hs.6630 Homo sapiens cDNA FLJ13329 fis, clone OV 1.00 3.90 417159 R01761 gb: ye81f10.s1 Soares fetal liver spleen 1.00 3.82 445607 AA488107 Hs.30156 ESTs, Weakly similar to unnamed protein 1.00 3.62 406274 Target Exon 1.00 3.59 410611 AW954134 Hs.20924 KIAA1628 protein 1.00 3.06 426495 NM_001151 Hs.2043 solute carrier family 25 (mitochondrial 1.00 2.89 422292 AI815733 Hs.114360 transforming growth factor beta-stimulat 1.00 2.61 413040 AA193338 Hs.12321 sodium calcium exchanger 1.00 2.51 429623 NM_005308 Hs.211569 G protein-coupled receptor kinase 5 1.00 2.05 456607 AI660190 Hs.106070 cyclin-dependent kinase inhibitor 1C (p5 1.00 2.01 429143 AA333327 Hs.197335 plasma glutamate carboxypeptidase 0.97 2.45 400288 X06256 Hs.149609 integrin, alpha 5 (fibronectin receptor, 0.90 2.47 442498 U54617 Hs.8364 Homo sapiens pyruvate dehydrogenase kina 0.88 5.08 414449 AA557660 Hs.76152 decorin 0.88 3.13 412014 AI620650 Hs.43761 ESTs, Weakly similar to A46010 X-linked 0.78 1.88 425100 AF051850 Hs.154567 supervillin 0.70 3.90 432094 AI658580 Hs.61426 Homo sapiens mesenchymal stem cell prote 0.68 3.41 427818 AW511222 Hs.193765 ESTs 0.63 3.75

[0380] TABLE 7B Pkey CAT Number Accession 417159 1653899_1 R01761 R01760 N49787 419543 185745_1 AA244170 AI018087 AA244355 450515 83710_1 AW304226 AW008420 AA349212 H15015 AA317021 AI829484 H25661 H81744 AI906147 AA837938 AW167766 AW603578 AW842369 BE439926 AA902417 AW235409 AA010062 AW069319 AI280242 AW672925 H06848 H05608 R51905 R45023 AW675471 H28475 AI086597 AI197815 AI825355 N99134 AI075956 AI470122 AA449985 AW662833 AA860423 AA913342 T23825 AI394207 AI310319 T32467 AI589870 AI682293 AI810633 BE223045 H14620 AA626645 AA876023 T33571 AA953982 AI138631 H15016 AI304356 AA983631 AI350990 AI143993 AI708171 AA526961 H26247 W38485 AA847598 H81745 AW855486 BE299605 AI079409 AI278050 AI223168 AI860904 AW025415 AI339003 AA393692 AI354302 AI492838 N80194 AI015651 N34543 BE295397 AI085154 W24135

[0381] TABLE 7C Pkey Ref Strand Nt_position 402096 8117697 Minus  24993-25186 403010 3132346 Plus  78385-79052 404917 7341851 Plus  49330-49498 406274 7543787 Plus   932-1123 406303 8575868 Plus 173622-173786

[0382] TABLE 8A Genes predictive of bladder cancer progression Pkey ExAccn UnigeneID Unigene Title R1 R2 413324 V00571 Hs.75294 corticotropin releasing hormone 8.30 4.18 437802 AI475995 Hs.122910 ESTs 7.51 2.50 444444 AI149332 Hs.14855 ESTs 2.58 1.38 445033 AV652402 Hs.72901 mucin 13, epithelial transmembrane 2.26 1.13 417771 AA804698 Hs.82547 retinoic acid receptor responder (tazaro 3.27 5.33 449618 AI076459 Hs.15978 KIAA1272 protein 2.70 3.33 407242 M18728 gb: Human nonspecific crossreacting antig 3.58 1.90 418318 U47732 Hs.84072 transmembrane 4 superfamily member 3 3.32 1.00 423441 R68649 Hs.278359 absent in melanoma 1 like 2.44 2.40 405033 C1002652*: gi|544327|sp|Q04799|FMO5_RABlT 1.75 3.48 423024 AA593731 Hs.325823 ESTs, Moderately similar to ALU5_HUMAN A 3.72 1.28 425118 AU076611 Hs.154672 methylene tetrahydrofolate dehydrogenase 2.40 2.78 437928 NM_005476 Hs.5920 UDP-N-acetylglucosamine-2-epimerase/N-ac 2.20 1.53 446584 U53445 Hs.15432 downregulated in ovarian cancer 1 1.38 2.33 436608 AA628980 down syndrome critical region protein DS 3.32 4.53 404440 NM_021048: Homo sapiens melanoma antigen, 2.64 1.00 435602 AF217515 Hs.283532 uncharacterized bone marrow protein BM03 2.06 1.09 424098 AF077374 Hs.139322 small proline-rich protein 3 2.47 3.64 437553 AI829935 Hs.130497 ESTs, Weakly similar to MAT8_HUMAN CHLOR 2.09 0.91 428036 AW068302 Homo sapiens mRNA for caldesmon, 3′ UTR 2.71 4.58 446839 BE091926 Hs.16244 mitotic spindle coiled-coil related prot 3.18 2.33 448479 H96115 Hs.21293 UDP-N-acteylglucosamine pyrophosphorylas 2.61 1.81 412059 AA317962 Hs.249721 ESTs, Moderately similar to PC4259 ferri 1.90 2.02 401241 AB028989 mitogen-activated protein kinase 8 inter 1.26 2.55 408741 M73720 Hs.646 carboxypeptidase A3 (mast cell) 2.12 1.23 415989 AI267700 ESTs 1.60 1.00 431070 AW408164 Hs.249184 transcription factor 19 (SC1) 1.73 1.50 452140 AB007928 Hs.28169 KIAA0459 protein 2.44 2.95 443162 T49951 Hs.9029 DKFZP434G032 protein 2.98 1.00 435904 AF261655 Hs.8910 1,2-alpha-mannosidase IC 2.56 1.20 407379 AA332127 Hs.325804 transcription factor 17 2.10 1.72 442712 BE465168 Hs.131011 ESTs 2.54 2.72 411678 AI907114 Hs.71465 squalene epoxidase 1.12 3.11 406791 AI220684 Hs.347939 hemoglobin, alpha 2 1.69 1.38 431805 NM_014053 Hs.270594 FLVCR protein 1.92 2.05 438414 AA806794 Hs.131511 ESTs 1.04 2.15 413924 AL119964 Hs.75616 seladin-1 1.69 2.05 437679 NM_014214 Hs.5753 inositol(myo)-1(or 4)-monophosphatase 2 2.27 2.26 445911 AI985987 Hs.145645 ESTs, Moderately similar to ALU1_HUMAN A 1.42 2.74 408349 BE546947 Hs.44276 homeo box C10 1.60 2.05 422545 X02761 Hs.287820 fibronectin 1 1.77 3.02 406643 N77976 Hs.347939 hemoglobin, alpha 2 1.57 1.35 407228 M25079 Hs.155376 hemoglobin, beta 1.81 1.50 449644 AW960707 Hs.148324 ESTs 1.90 3.19 402305 C19000735*: gi|4508027|ref|NP_003414.1|z 2.25 1.49 427683 BE545490 Hs.15053 Homo sapiens HCMOGT-1 mRNA for sperm ant 1.08 2.25 441690 R81733 Hs.33106 ESTs 1.80 2.65 434487 AF143867 Hs.337588 ESTs, Moderately similar to S65657 alpha 2.13 1.63 403362 NM_001615*: Homo sapiens actin, gamma 2, 2.33 2.22 445496 AB007860 Hs.12802 development and differentiation enhancin 1.12 2.60 425234 AW152225 Hs.165909 ESTs, Weakly similar to I38022 hypotheti 1.83 3.05 402366 AV648601 apolipoprotein B (including Ag(x) antige 1.32 2.05 427254 AL121523 Hs.97774 ESTs 2.44 1.00 414533 AA149060 Hs.296100 ESTs 1.70 2.06 430157 BE348706 Hs.278543 ESTs 2.54 3.00 413433 NM_003199 Hs.326198 transcription factor 4 2.26 1.41 410532 T53088 Hs.155376 hemoglobin, beta 1.52 1.56 405779 NM_005367: Homo sapiens melanoma antigen, 2.42 1.22 450455 AL117424 Hs.25035 chloride intracellular channel 4 2.48 2.13 414081 AW969976 Hs.279009 matrix Gla protein 1.81 1.53 414761 AU077228 Hs.77256 enhancer of zeste (Drosophila) homolog 2 1.65 2.08 415062 H45100 Hs.49753 uveal autoantigen with coiled coil domai 1.62 3.75 406317 C2002658*: gi|6625694|gb|AAF19354.1|AF185 1.68 2.11 453259 R93125 Hs.124187 ESTs 1.08 2.25 445937 AI452943 Hs.321231 UDP-Gal: betaGlcNAc beta 1,4-galactosylt 1.76 1.01 434370 AF130988 Hs.58346 ectodysplasin 1, anhidrotic receptor 1.12 2.08 418058 AW161552 Hs.83381 guanine nucleotide binding protein 11 2.02 2.40 432331 W37862 Hs.274368 MSTP032 protein 4.36 2.18 451736 AW080356 Hs.23889 ESTs, Weakly similar to ALU7_HUMAN ALU S 1.51 3.45 413109 AW389845 Hs.110855 ESTs 4.34 5.98 413643 AA130987 Hs.188727 ESTs 1.30 2.42 433217 AB040914 Hs.278628 KIAA1481 protein 1.70 2.49 435232 NM_001262 Hs.4854 cyclin-dependent kinase inhibitor 2C (p1 1.79 1.66 438006 BE148799 Hs.127951 hypothetical protein FLJ14503 1.76 2.04 410102 AW248508 Hs.279727 ESTs; homologue of PEM-3 [Ciona savignyi 2.32 2.45 433656 AW974941 Hs.292385 ESTs, Weakly similar to I78885 serine/th 1.14 2.50 415714 NM_002290 Hs.78672 laminin, alpha 4 2.52 1.13 450282 AA007655 Hs.93523 ESTs 1.40 2.58 442855 AI074465 Hs.133469 ESTs 1.54 2.20 432917 NM_014125 Hs.241517 PRO0327 protein 2.24 3.03 429041 AJ132820 Hs.194768 a disintegrin and metalloproteinase doma 1.61 2.60 442807 AL049274 Hs.8736 Homo sapiens mRNA; cDNA DKFZp564H203 (fr 1.73 1.19 427719 AI393122 Hs.134726 ESTs 1.46 2.00 408778 AI500519 Hs.63382 hypothetical protein PRO2714 1.46 2.58 418870 AF147204 Hs.89414 chemokine (C-X-C motif), receptor 4 (fus 1.40 2.03 424425 AB031480 Hs.146824 SPR1 protein 1.60 1.11 445391 T92576 Hs.191168 ESTs 1.69 2.40 446899 NM_005397 Hs.16426 podocalyxin-like 1.22 2.42 420996 AK001927 Hs.100895 hypothetical protein FLJ10462 2.68 2.98 424909 S78187 Hs.153752 cell division cycle 25B 2.18 1.33 413593 AA205248 gb: zq78c12.r1 Stratagene hNT neuron (937 1.69 2.00 408734 AW264996 Hs.254299 ESTs 2.06 2.94 413880 AI660842 Hs.110915 interleukin 22 receptor 1.24 2.20 437063 AA351109 Hs.5437 Tax1 (human T-cell leukemia virus type I 1.78 2.60 418044 AI640532 Hs.119830 ESTs, Weakly similar to ALUF_HUMAN !!!! 1.54 2.53 441971 W27060 Hs.265855 ESTs 1.62 2.13 450401 AW959281 Hs.8184 ESTs 1.42 2.30 440157 AA868350 Hs.343636 ESTs 1.38 2.60 457587 AA992841 Hs.27263 KIAA1458 protein 1.47 2.42 440707 BE256751 Hs.22867 Homo sapiens cDNA: FLJ22073 fis, clone H 1.18 2.10 402241 Target Exon 2.58 2.52 413428 AA430155 Hs.151343 KIAA1524 protein 1.22 2.45 416735 R11275 Hs.194485 ESTs 1.14 2.14 421582 AI910275 trefoil factor 1 (breast cancer, estroge 1.25 1.03 431031 AA830335 Hs.105273 ESTs 2.35 2.95 433336 AF017986 Hs.31386 secreted frizzled-related protein 2 3.72 1.00 420786 AW296466 Hs.43628 deleted in lymphocytic leukemia, 2 1.23 2.60 401335 Target Exon 1.18 1.68 417670 R07785 gb: yf15c06.r1 Soares fetal liver spleen 1.56 2.00 406314 C14001020: gi|12597441|gb|AAG60049.1|AF31 1.60 3.08 458981 AW968318 Hs.285996 hypothetical protein FLJ23375 1.70 2.50 417509 AA203414 Hs.42009 ESTs 1.82 2.05 452732 BE300078 Hs.80449 Homo sapiens, clone IMAGE: 3535294, mRNA, 1.34 1.37 418678 NM_001327 Hs.87225 cancer/testis antigen (NY-ESO-1) 1.37 1.02 457871 AI168278 ESTs 1.20 2.19 444163 AI126098 gb: qc54g07.x1 Soares_placent_8to9weeks_(—) 1.43 1.22 413276 Z24725 Hs.75260 mitogen inducible 2 1.78 2.28 421097 AI280112 Hs.125232 Homo sapiens cDNA FLJ13266 fis, clone OV 2.55 2.60 417151 AA194055 Hs.293858 ESTs 1.68 1.67 453556 AA425414 Hs.33287 nuclear factor I/B 2.06 2.40 440859 AW070865 Hs.346390 ESTs 1.12 1.70 420629 AW204343 Hs.156823 ESTs, Weakly similar to T30868 RhoA-bind 1.21 2.38 422363 T55979 Hs.115474 replication factor C (activator 1) 3 (38 1.58 2.15 434831 AA248060 Hs.273397 KIAA0710 gene product 1.69 1.78 412055 AA099907 Hs.271806 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.36 2.65 445468 AW450439 ESTs 1.52 2.50 444550 BE250716 Hs.87614 ESTs 1.30 2.28 417259 AW903838 Hs.81800 chondroitin sulfate proteoglycan 2 (vers 1.50 3.02 430233 AW367902 Hs.236443 Homo sapiens mRNA; cDNA DKFZp564N1063 (f 1.24 2.95 413444 BE141019 gb: MR0-HT0067-201099-002-b10 HT0067 Homo 1.68 2.80 433844 AA610175 Hs.179647 Homo sapiens cDNA FLJ12195 fis, clone MA 1.49 2.01 427055 AI301740 Hs.173381 dihydropyrimidinase-like 2 1.11 2.58 454244 R51604 Hs.300842 KIAA1608 protein 1.00 2.02 429503 AA394183 Hs.26873 ESTs 2.58 4.08 422940 BE077458 gb: RC1-BT0606-090500-015-b04 BT0606 Homo 3.48 2.46 407949 W21874 Hs.247057 ESTs, Weakly similar to 2109260A B cell 3.13 1.48 437312 AA809350 Hs.246180 ESTs 1.10 2.05 449426 T92251 Hs.198882 ESTs 1.22 2.08 447620 AW290951 Hs.224965 ESTs 1.80 2.18 444700 NM_003645 Hs.11729 fatty-acid-Coenzyme A ligase, very long- 1.72 2.81 436258 AW867491 Hs.107125 plasmalemma vesicle associated protein 1.99 1.80 415712 AW249188 Hs.169577 Homo sapiens cDNA FLJ14743 fis, clone NT 1.66 2.98 432877 AW974111 Hs.292477 ESTs 1.63 2.79 412085 AW891667 gb: CM3-NT0089-110500-179-h09 NT0089 Homo 1.40 2.08 431421 AW969118 Hs.108144 ESTs, Weakly similar to unnamed protein 1.96 3.58 409714 AW367812 Hs.199961 ESTs, Weakly similar to ALU7_HUMAN ALU S 1.24 2.10 423013 AW875443 Hs.22209 secreted modular calcium-binding protein 1.49 2.09 422663 AW500087 Hs.119014 zinc finger protein 175 1.01 2.78 439737 AI751438 Hs.41271 Homo sapiens mRNA full length insert cDN 1.54 2.57 413196 AA127386 gb: zn90d09.r1 Stratagene lung carcinoma 1.04 2.18 439349 AI660898 Hs.195602 ESTs 2.03 2.43 443005 AI027184 Hs.200918 ESTs 1.42 2.10 424762 AL119442 Hs.183684 eukaryotic translation initiation factor 2.58 3.43 427373 AB007972 Hs.130760 myosin phosphatase, target subunit 2 2.08 1.70 413916 N49813 Hs.75615 apolipoprotein C-II 0.70 0.42 418332 R34976 Hs.78293 ESTs 2.74 2.43 426552 BE297660 Hs.170328 moesin 1.28 1.52 456583 AF179897 Hs.104105 Meis (mouse) homolog 2 1.42 2.02 447214 AI367288 Hs.273621 Homo sapiens cDNA: FLJ21350 fis, clone C 1.14 2.10 449254 W26908 Hs.172762 ESTs 2.04 2.50 443651 W22152 Hs.282929 ESTs 2.94 3.08 421021 AA808018 Hs.109302 ESTs 1.41 2.04 419741 NM_007019 Hs.93002 ubiquitin carrier protein E2-C 1.61 1.21 432027 AL096678 Hs.272353 KIAA0957 protein 1.70 2.76 452688 AA721140 Hs.49930 ESTs, Weakly similar to putative p150 [H 1.80 2.95 417042 C75563 Hs.113029 ribosomal protein S25 2.22 3.20 443574 U83993 Hs.321709 purinergic receptor P2X, ligand-gated io 1.21 2.51 429372 AA451859 Hs.99253 ESTs 1.28 2.43 424290 AA338396 gb: EST43386 Fetal brain I Homo sapiens c 1.82 2.03 428518 AW969656 gb: EST381733 MAGE resequences, MAGK Homo 1.72 2.52 455649 BE065051 gb: RC1-BT0313-110500-017-c04 BT0313 Homo 1.65 3.03 414665 AA160873 Hs.332053 serum amyloid A1 1.36 1.08 418298 AA256014 Hs.86682 Homo sapiens cDNA: FLJ21578 fis, clone C 1.04 2.03 429655 U48959 Hs.211582 myosin, light polypeptide kinase 4.94 4.34 433924 AA618304 Hs.258785 ESTs 1.44 2.40 452683 AI089575 Hs.9071 progesterone membrane binding protein 1.48 2.48 439437 AI207788 Hs.343628 sialyltransferase 4B (beta-galactosidase 1.36 2.33 432314 AA533447 Hs.312989 ESTs 0.96 2.78 400881 NM_025080: Homo sapiens hypothetical prot 1.70 3.15 426477 AA379464 gb: EST92386 Skin tumor I Homo sapiens cD 2.01 2.37 454741 BE154396 gb: CM2-HT0342-091299-050-b05 HT0342 Homo 2.12 3.44 423977 AA333232 gb: EST37283 Embryo, 8 week I Homo sapien 1.38 2.13 450396 AU077002 Hs.24950 regulator of G-protein signalling 5 2.13 3.28 431842 NM_005764 Hs.271473 epithelial protein up-regulated in carci 1.90 2.23 415157 D63257 gb: HUM514B08B Clontech human placenta po 1.29 2.90 418236 AW994005 Hs.337534 ESTs 1.74 2.37 454390 AB020713 Hs.56966 KIAA0906 protein 1.47 1.38 436143 AA705245 Hs.192189 ESTs 1.46 2.45 436251 BE515065 Hs.296585 nucleolar protein (KKE/D repeat) 1.43 2.07 450735 AI732321 SRY (sex determining region Y)-box 4 1.36 2.02 420136 AW801090 Hs.195851 actin, alpha 2, smooth muscle, aorta 2.70 1.68 447100 AI361801 Hs.167130 hypothetical protein 1.66 2.03 453577 AL043049 gb: DKFZp434A1523_r1 434 (synonym: htes3) 1.41 2.75 408522 AI541214 Hs.46320 Small proline-rich protein SPRK [human, 1.59 1.38 412632 AL120379 Hs.74294 aldehyde dehydrogenase 7 family, member 1.81 2.51 423291 NM_004129 Hs.126590 guanylate cyclase 1, soluble, beta 2 1.54 2.83 456172 R99050 gb: yq65c02.r1 Soares fetal liver spleen 1.46 2.68 452123 AI267615 Hs.38022 ESTs 1.24 1.93 433900 AA721668 Hs.257761 ESTs 1.78 2.66 408436 R31954 Hs.7885 phosphatidylinositol binding clathrin as 1.21 2.35 417123 BE326521 Hs.159450 ESTs 1.46 2.09 436023 T81819 Hs.302251 ESTs 2.68 2.70 454150 AA131893 Hs.154088 hypothetical protein FLJ22756 1.40 2.50 444094 AI695764 Hs.202394 ESTs 1.28 4.03 429176 AW975021 Hs.193800 ESTs 1.08 2.53 422259 AA307584 gb: EST178498 Colon carcinoma (HCC) cell 1.80 3.03 451164 AA015912 Hs.60659 ESTs, Weakly similar to T46471 hypotheti 1.47 1.17 417501 AL041219 Hs.82222 sema domain, immunoglobulin domain (lg), 2.92 2.70 455642 BE063965 gb: QV3-BT0296-140200-085-h01 BT0296 Homo 1.70 2.70 443387 BE139135 Hs.254629 ESTs 1.48 2.32 420995 AA282495 Hs.89014 ESTs 1.45 1.51 407329 AA576061 Hs.269834 ESTs, Weakly similar to ALUD_HUMAN !!!! 1.13 2.38 438797 C16161 Hs.283040 hypothetical protein PRO2543 0.99 2.75 443357 AW016773 low molecular mass ubiquinone-binding pr 1.60 2.08 412656 AF006011 Hs.74375 dishevelled 1 (homologous to Drosophila 1.32 1.13 427377 AU077029 Hs.177543 antigen identified by monoclonal antibod 1.24 0.79 412200 R08110 Hs.187462 ESTs, Weakly similar to I38022 hypotheti 1.35 1.54 432586 AA568548 ESTs 1.50 2.25 411590 T96183 gb: ye09f07.s1 Stratagene lung (937210) H 1.22 2.53 422672 X12784 Hs.119129 collagen, type IV, alpha 1 2.27 2.20 420256 U84722 Hs.76206 cadherin 5, type 2, VE-cadherin (vascula 1.59 2.11 419900 AI469960 Hs.170698 ESTs 1.30 2.68 410805 AW804742 Hs.84264 acidic protein rich in leucines 1.16 2.28 452560 BE077084 Hs.99969 ESTs 1.44 2.58 448429 D17408 Hs.21223 calponin 1, basic, smooth muscle 4.02 1.00 424436 AW818428 Hs.4953 golgi autoantigen, golgin subfamily a, 3 1.10 2.00 447400 AK000322 Hs.18457 hypothetical protein FLJ20315 1.45 1.28 422522 AI023428 Hs.34549 ESTs, Highly similar to S94541 1 clone 4 1.82 2.10 443696 AW607444 Hs.134622 ESTs 1.98 2.01 436094 AI798701 Hs.222222 ESTs 1.34 2.40 420168 AF217508 Hs.95594 serine carboxypeptidase vitellogenic-lik 1.58 2.45 430325 AF004562 Hs.239356 syntaxin binding protein 1 1.34 2.43 439022 AA356599 Hs.173904 ESTs 2.76 2.40 420563 AA278327 Hs.136237 ESTs, Moderately similar to Y140_HUMAN H 1.78 2.65 429494 AA769365 Hs.126058 ESTs 1.50 2.40 420689 H79979 Hs.88678 ESTs 1.26 2.28 448988 Y09763 Hs.22785 gamma-aminobutyric acid (GABA) A recepto 1.72 1.29 439943 AW083789 Hs.124620 ESTs 1.45 2.84 442300 AI765908 Hs.129166 ESTs 1.24 2.35 449614 AI989490 Hs.197703 ESTs 1.12 2.22 444363 AI142827 Hs.143656 ESTs 1.32 2.08 424479 AF064238 Hs.149098 smoothelin 1.59 1.10 437321 AA768966 Hs.292026 ESTs, Weakly similar to 2109260A B cell 1.28 2.07 431926 AW972724 gb: EST384816 MAGE resequences, MAGL Homo 1.52 2.63 433640 AW390125 Hs.240443 Homo sapiens cDNA: FLJ23538 fis, clone L 1.69 1.30 415901 H08396 Hs.76118 ubiquitin carboxyl-terminal esterase L1 1.71 2.19 437199 AL110175 Hs.306337 Homo sapiens mRNA; cDNA DKFZp564H0616 (f 1.48 2.50 457450 AW294163 Hs.146127 ESTs 1.07 2.60 456678 AF141305 Hs.173736 ancient ubiquitous protein 1 1.44 2.35 451079 AI827988 Hs.240728 ESTs, Moderately similar to PC4259 ferri 0.95 3.00 405944 Target Exon 1.48 2.45 408877 AA479033 Hs.130315 ESTs, Weakly similar to A47582 B-cell gr 1.38 2.20 446682 AW205632 Hs.211198 ESTs 1.38 3.00 431380 AW610282 Hs.291003 ESTs 1.43 2.64 442027 AI652926 Hs.128395 ESTs 1.18 2.43 423578 AW960454 Hs.222830 ESTs 1.56 2.18 441495 AW294603 Hs.127039 ESTs 2.80 1.73 417900 BE250127 Hs.82906 CDC20 (cell division cycle 20, S. cerevi 1.36 1.18 443949 AW827419 Hs.235070 ESTs 1.30 2.28 440495 AA887212 Hs.14161 hypothetical protein DKFZp434I1930 1.74 2.78 449948 R19156 Hs.20798 ESTs 1.12 2.23 439564 W77911 Hs.110006 ESTs 1.34 2.85 423225 AA852604 Hs.125359 Thy-1 cell surface antigen 1.24 1.09 436139 AA765786 Hs.120936 ESTs 1.30 2.10 456968 AI174861 Hs.190623 ESTs 1.14 2.15 437191 NM_006846 Hs.331555 serine protease inhibitor, Kazal type, 5 1.21 2.18 411652 AW855393 gb: CM3-CT0275-191099-024-f10 CT0275 Homo 1.85 1.94 420732 AA789133 Hs.88650 ESTs 1.66 2.71 409291 AW373472 gb: RC3-BT0523-181299-011-d12 BT0523 Homo 1.56 2.30 424415 NM_001975 Hs.146580 enolase 2, (gamma, neuronal) 1.56 1.39 424927 AW973666 Hs.153850 hypothetical protein C321D2.4 1.58 1.24 450946 AA374569 Hs.127698 ESTs, Moderately similar to 2109260A B c 1.02 2.25 428423 AU076517 Hs.184276 solute carrier family 9 (sodium/hydrogen 1.70 2.39 415361 F06724 gb: HSC1IG021 normalized infant brain cDN 1.34 2.40 406490 C5001926: gi|7511572|pir∥T42245 probable 1.28 2.40 410855 X97795 Hs.66718 RAD54 (S. cerevisiae)-like 1.52 2.00 440010 AA534930 Hs.127236 hypothetical protein FLJ12879 1.12 2.20 429508 AW369620 Hs.33944 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.33 2.28 426340 Z97989 Hs.169370 FYN oncogene related to SRC, FGR, YES 1.88 2.18 416889 AW250318 Hs.80395 mal, T-cell differentiation protein 1.65 1.16 451870 AI820991 Hs.8377 ESTs 1.24 2.03 444091 AV647924 Hs.282376 ESTs 1.05 2.13 410793 AW581906 Hs.66392 intersectin 1 (SH3 domain protein) 2.00 3.13 452222 AW806287 Hs.21432 SEX gene 1.25 1.10 433010 AW970018 gb: EST382097 MAGE resequences, MAGK Homo 1.36 2.41 432674 AA641092 Hs.257339 ESTs, Weakly similar to I38022 hypotheti 1.14 2.03 438855 AW946276 Hs.6441 Homo sapiens mRNA; cDNA DKFZp586J021 (fr 2.24 1.77 448718 AA220235 Hs.153959 hypothetical protein MGC15436 1.52 2.65 402685 Target Exon 2.04 2.46 424528 AW073971 Hs.238954 ESTs, Weakly similar to KIAA1204 protein 1.66 2.05 422068 AI807519 Hs.104520 Homo sapiens cDNA FLJ13694 fis, clone PL 1.89 4.98 451225 AI433694 Hs.293608 ESTs 1.79 2.70 441078 AI453268 Hs.323409 Homo sapiens cDNA FLJ14113 fis, clone MA 1.44 2.58 409406 H83092 Hs.49605 ESTs 1.38 2.05 422297 AW961290 p30 DBC protein 1.20 2.73 408711 AW376061 Hs.63335 ESTs, Moderately similar to A46010 X-lin 1.20 2.08 426696 AW363332 Hs.171844 Homo sapiens cDNA: FLJ22296 fis, clone H 1.35 2.68 417324 AW265494 ESTs 1.68 1.25 408283 BE141579 gb: QV2-HT0083-071299-018-b05 HT0083 Homo 1.25 2.65 415166 NM_003652 Hs.78068 carboxypeptidase Z 1.34 1.09 406300 Target Exon 1.61 2.47 411880 AW872477 gb: hm30f03.x1 NCI_CGAP_Thy4 Homo sapiens 3.60 4.03 422287 F16365 Hs.114346 cytochrome c oxidase subunit Vlla polype 2.16 1.44 422567 AF111178 Hs.118407 glypican 6 1.57 2.03 436855 AA732624 Hs.165852 ESTs 1.08 2.75 403536 Target Exon 0.93 2.13 447733 AF157482 Hs.19400 MAD2 (mitotic arrest deficient, yeast, h 1.18 1.07 417117 N46778 gb: yy52b02.r1 Soares_multiple_sclerosis_(—) 1.70 2.85 411690 AA669253 Hs.136075 RNA, U2 small nuclear 2.12 2.78 443243 AI452496 Hs.132056 ESTs 1.15 2.83 423074 AL109963 FSH primary response (LRPR1, rat) homolo 1.37 1.43 408916 AW295232 Hs.429 ATP synthase, H transporting, mitochondr 1.63 2.23 449799 AI143466 Hs.125060 ESTs 1.40 2.08 415378 T16964 gb: NIB2079-5R Normalized infant brain, B 1.88 1.85 431089 BE041395 ESTs, Weakly similar to unknown protein 1.57 2.57 434959 AW974949 Hs.186564 ESTs, Weakly similar to I38022 hypotheti 1.30 2.30 416311 D80529 gb: HUM081H05B Human fetal brain (TFujiwa 1.58 4.35 444614 R44284 Hs.2730 heterogeneous nuclear ribonucleoprotein 1.88 2.98 456206 NM_006895 Hs.81182 histamine N-methyltransferase 1.24 2.08 410583 AW770280 Hs.36258 ESTs, Moderately similar to JC5238 galac 1.56 4.33 430410 AF099144 Hs.334455 tryptase beta 1 1.91 1.58 408139 AA451966 RAB9-like protein 1.42 2.14 432621 AI298501 Hs.12807 ESTs, Weakly similar to T46428 hypotheti 2.08 1.94 441584 AW148329 Hs.175208 ESTs 1.12 2.05 445940 D60438 Hs.34779 ESTs 1.86 2.70 453022 AA031499 Hs.118489 ESTs 2.02 1.75 444008 BE544855 Hs.236572 ESTs, Weakly similar to SFR4_HUMAN SPLIC 1.54 1.29 442994 AI026718 Hs.16954 ESTs 3.60 3.78 402085 C18000504*: gi|2627436|gb|AAB86683.1| (AF 1.36 2.53 411918 AW876354 gb: PM4-PT0019-141299-009-F08 PT0019 Homo 2.00 2.63 455508 AW976165 gb: EST388274 MAGE resequences, MAGN Homo 1.70 3.04 426106 AI678765 Hs.21812 ESTs 1.49 2.11 425131 BE252230 Hs.99163 ESTs 2.04 2.65 440325 NM_003812 Hs.7164 a disintegrin and metalloproteinase doma 1.17 2.55 420447 AA687306 Hs.88448 ESTs 1.66 2.58 428055 AA420564 Hs.101760 ESTs 1.08 2.15 422110 AI376736 Hs.111779 secreted protein, acidic, cysteine-rich 1.76 1.82 438581 AW977766 Hs.292133 ESTs, Moderately similar to I78885 serin 1.08 2.10 403290 C1000101*: gi|4758212|ref|NP_004411.1| d 0.97 2.48 408175 W29089 Hs.19066 hypothetical protein DKFZp667O2416 1.42 1.41 432390 AA936177 Hs.274460 olfactory receptor, family 5, subfamily 1.26 2.05 443441 AW291196 Hs.92195 ESTs 1.52 2.13 419925 AA159850 Hs.93765 lipoma HMGIC fusion partner 1.72 2.80 445256 AI858635 Hs.144763 ESTs 1.97 3.33 456381 AA236606 gb: zr99b10.r1 NCI_CGAP_GCB1 Homo sapiens 1.16 1.95 422433 AA310560 Hs.153746 hypothetical protein FLJ22490 1.06 2.20 432529 AI989507 Hs.162245 ESTs 1.36 2.25 424951 AW964082 gb: EST376155 MAGE resequences, MAGH Homo 2.22 2.58 420785 H89633 Hs.191346 ESTs 1.26 2.15 411347 AW838126 gb: QV2-LT0051-240300-097-f01 LT0051 Homo 1.38 2.38 438742 AW204126 Hs.196543 ESTs 1.10 2.30 414900 AW452420 Hs.248678 ESTs 2.01 3.08 443284 AI369813 Hs.64783 ESTs, Weakly similar to T42705 hypotheti 0.66 0.43 402049 Target Exon 2.28 2.00 429400 AW604940 Hs.201668 transcription factor 20 (AR1) 1.16 2.00 423916 AW993496 Hs.17235 Homo sapiens clone TCCCIA00176 mRNA sequ 1.59 1.05 432495 AW973537 Hs.186734 ESTs, Weakly similar to I61746 pheromone 1.50 2.05 414840 R27319 Hs.23823 hairy/enhancer-of-split related with YRP 1.89 2.09 428711 R46414 Hs.56828 trinucleotide repeat containing 5 1.77 1.83 448609 AW139420 Hs.7972 KIAA0871 protein 1.14 2.26 443859 NM_013409 Hs.9914 follistatin 1.17 1.05 411141 AW819561 gb: RC5-ST0293-140200-013-G04 ST0293 Homo 1.44 2.40 440116 AI798851 Hs.266959 hemoglobin, gamma G 1.18 2.08 417944 AU077196 Hs.82985 collagen, type V, alpha 2 2.10 1.37 429640 U83508 Hs.2463 angiopoietin 1 1.92 2.98 410064 X53416 Hs.195464 filamin A, alpha (actin-binding protein- 1.51 1.29 458218 AI435179 Hs.126820 ESTs 1.49 1.15 443114 AI033377 Hs.153298 ESTs 1.38 2.05 427788 AA412397 Hs.116858 ESTs 1.45 1.85 435913 W95006 Hs.269559 ESTs, Weakly similar to S65657 alpha-1C- 1.63 3.90 457949 W69171 Hs.71741 ESTs, Highly similar to I38945 melanoma 1.01 2.00 419203 AA488719 Hs.190151 ESTs 1.94 2.45 412510 AI056689 Hs.133538 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.91 2.20 413885 BE177442 gb: RC1-HT0595-200400-012-f01 HT0595 Homo 1.48 2.80 426239 AA669615 Hs.214226 ESTs 1.36 2.50 408866 AW292096 Hs.255036 ESTs 1.93 2.92 412857 AI703484 Hs.128052 ESTs 1.72 1.60 427340 BE167242 Hs.47099 hypothetical protein FLJ21212 1.46 2.13 412902 BE008018 gb: QV0-BN0147-290400-214-c01 BN0147 Homo 0.90 2.05 451141 AW772713 Hs.247186 ESTs 2.38 3.95 412626 AA114945 Hs.151839 ESTs 1.75 2.15 405667 Target Exon 2.62 3.79 417777 AI823763 Hs.7055 ESTs, Weakly similar to I78885 serine/th 1.24 2.08 401400 Target Exon 1.16 1.90 426796 S78234 Hs.172405 cell division cycle 27 2.14 1.63 435046 AA662772 Hs.174330 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.14 2.28 448401 AI498509 Hs.346254 ESTs 2.50 2.83 450832 AW970602 Hs.105421 ESTs 0.55 0.39 441057 AL043897 Hs.126483 ESTs 1.08 2.13 438725 AA815163 Hs.127307 ESTs 1.31 2.65 450062 AW001043 Hs.200854 ESTs 1.30 2.48 441214 AI820648 Hs.129136 ESTs 1.43 1.71 431723 AW058350 Hs.16762 Homo sapiens mRNA; cDNA DKFZp564B2062 (f 1.22 2.30 414907 X90725 Hs.77597 polo (Drosophia)-like kinase 1.35 1.49 423622 BE154847 gb: PM1-HT0345-121199-001-d05 HT0345 Homo 1.57 2.30 450835 BE262773 Hs.25584 hypothetical protein FLJ10767 1.40 1.12 444014 AI095718 Hs.135015 ESTs 2.30 1.78 431603 AA807955 Hs.325984 EST 1.26 2.03 408697 AW419069 Hs.209670 ESTs 1.35 2.60 444312 R44007 ESTs 1.95 2.07 404286 C6001909: gi|704441|dbj|BAA18909.1|(D298 2.29 2.22 438813 M27346 gb: Homo sapiens (clone HGP09/HGP32) T ce 1.03 2.43 445534 AL038823 Hs.12840 Homo sapiens germline mRNA sequence 1.00 2.16 426046 AA833655 Hs.206868 Homo sapiens cDNA FLJ14056 fis, clone HE 1.59 2.73 451907 AI822065 Hs.50749 ESTs, Moderately similar to ALU7_HUMAN A 1.74 2.65 418796 AA228351 Hs.34060 ESTs 1.28 2.12 422431 AI769410 Hs.221461 ESTs 1.80 3.58 417557 AA225622 Hs.293589 ESTs 1.32 2.14 455313 AW894409 Hs.125472 ESTs, Moderately similar to KIAA0877 pro 1.48 2.57 415479 F10042 Hs.4840 ESTs 1.83 2.01 450433 AW444538 Hs.231863 ESTs 1.31 2.58 410581 AA018982 Hs.125036 tumor endothelial marker 7 precursor 1.54 1.62 455407 AW936813 gb: PM2-DT0023-050400-003-b10 DT0023 Homo 1.32 2.15 417552 R00916 Hs.166510 ESTs 1.50 2.63 428290 AI932995 Hs.183475 Homo sapiens clone 25061 mRNA sequence 1.94 2.70 432391 AI732374 Hs.339827 Human DNA sequence from clone RP5-881L22 0.96 2.38 456283 U68162 Hs.84171 myeloproliferative leukemia virus oncoge 1.22 2.13 438535 L09078 gb: Homo sapiens mRNA fragment 2.14 1.95 416564 AW795793 Hs.2575 Homo sapiens cDNA FLJ12257 fis, clone MA 2.28 1.93 435200 AA670310 Hs.145903 ESTs 1.16 2.13 457635 AV660976 Hs.3569 hypothetical protein 1.37 3.10 444930 BE185536 Hs.301183 molecule possessing ankyrin repeats indu 0.99 2.45 449319 AA373630 Hs.188750 ESTs 1.56 3.28 418992 AW074143 Hs.87134 ESTs 1.88 2.20 409367 AW382767 gb: PM0-HT0339-081199-001-h05 HT0339 Homo 1.30 2.50 434973 AW449285 Hs.313636 EST 1.11 2.65 408383 BE466959 Hs.144153 ESTs 1.30 2.44 440100 BE382685 Hs.158549 ESTs, Weakly similar to T2D3_HUMAN TRANS 1.23 2.71 431996 AL122087 Hs.272304 Homo sapiens mRNA; cDNA DKFZp564C0371 (f 1.24 2.27 427681 AB018263 Hs.180338 tumor necrosis factor receptor superfami 1.70 1.68 405146 C8001690*: gi|6754446|ref|NP_034760.1|ki 2.00 0.68 436154 AA764950 Hs.119898 ESTs 1.43 3.00 451233 AA047221 Hs.59752 ESTs 1.38 2.20 446856 AI814373 Hs.164175 ESTs 1.33 3.93 448211 BE384592 Hs.6451 PRO0659 protein 1.48 2.73 418283 S79895 Hs.83942 cathepsin K (pycnodysostosis) 1.33 2.68 409609 AW444670 Hs.335685 ESTs 1.27 1.51 450414 AI907735 Hs.21446 KIAA1716 protein 1.60 1.24 452929 AW954938 Hs.172816 neuregulin 1 2.01 3.70 435112 AW976145 Hs.143198 inhibitor of growth family, member 3 1.22 1.30 439806 AA846824 Hs.180908 ESTs 0.80 2.04 439910 H66765 Hs.339397 ESTs 1.28 2.16 437886 BE264111 Hs.31314 retinoblastoma-binding protein 7 1.06 2.82 441354 AA931221 Hs.126813 ESTs 1.20 2.28 428951 AL138153 Hs.300410 ESTs, Moderately similar to A47582 B-cel 1.50 1.83 438272 AI167963 Hs.143700 ESTs, Weakly similar to S65824 reverse t 1.34 2.51 429642 X68264 Hs.211579 melanoma cell adhesion molecule 1.18 1.18 422121 AI767949 Hs.179833 ESTs 1.18 2.26 411184 AW821117 gb: PM2-ST0303-170100-003-g03 ST0303 Homo 1.18 2.21 435871 AF257077 Hs.283627 eukaryotic translation initiation factor 1.17 1.57 430570 AI417881 Hs.292464 ESTs 1.49 3.17 431995 AL080197 Hs.272302 hypothetical protein 1.52 2.11 451326 AW296946 Hs.256078 ESTs 1.19 2.18 437046 BE149154 gb: RC2-HT0252-271099-017-c11 HT0252 Homo 1.18 2.25 410154 F06959 gb: HSC1QD011 normalized infant brain cDN 1.41 2.05 434373 AI565566 Hs.168587 ESTs 1.39 1.33 444552 AW295211 Hs.230777 ESTs 1.36 2.20 411608 AW853441 gb: RC1-CT0252-030100-023-g09 CT0252 Homo 2.12 1.80 440573 BE550891 Hs.270624 ESTs 2.19 2.17 443047 AW157377 Hs.132910 ESTs 1.81 2.28 451473 AW298047 Hs.346198 ESTs 1.18 2.30 416265 AA177088 Hs.190065 ESTs 2.37 3.38 435375 AI733610 Hs.187832 ESTs 1.12 2.18 401469 NM_022137*: Homo sapiens secreted modular 1.32 1.61 456152 AA174126 Hs.332163 ESTs 1.26 2.50 415808 R21439 Hs.334578 Homo sapiens, clone IMAGE: 3929520, mRNA 1.39 2.43 452721 AJ269529 Hs.301871 solute carrier family 37 (glycerol-3-pho 0.92 2.20 435127 AI217926 Hs.179863 EST 1.36 2.65 420772 AW752656 Hs.222707 KIAA1718 protein 1.19 1.50 456332 AA228357 gb: nc39d05.r1 NCI_CGAP_Pr2 Homo sapiens 1.45 3.57 444678 AI741513 Hs.143739 ESTs 1.43 1.62 446175 AL036568 Hs.291 glutamyl aminopeptidase (aminopeptidase 1.00 1.53 416463 H59241 Homo sapiens cDNA FLJ11095 fis, clone PL 1.44 2.13 405158 ENSP00000243337: CDNA FLJ13984 fis, clone 1.38 2.68 403903 C5001632*: gi|10645308|gb|AAG21430.1|AC00 1.32 1.43 407271 X98937 gb: H. sapiens rearranged lg heavy chain ( 1.40 2.68 413929 BE501689 Hs.75617 collagen, type IV, alpha 2 1.59 1.33 450778 U81375 Hs.25450 solute carrier family 29 (nucleoside tra 1.17 1.10 434274 AA628539 Hs.116252 ESTs, Moderately similar to ALU1_HUMAN A 1.92 2.80 400075 Eos Control 1.76 2.60 433694 AI208611 Hs.12066 Homo sapiens cDNA FLJ11720 fis, clone HE 1.48 2.33 454826 AW833676 gb: QV4-TT0008-181199-038-h04 TT0008 Homo 1.57 2.89 415168 AA160805 Hs.199832 ESTs, Weakly similar to I78885 serine/th 2.08 1.76 439486 AF086303 Hs.103185 ESTs 1.49 2.19 403291 Target Exon 1.36 2.28 438618 AA897673 Hs.123457 ESTs 0.75 0.79 455087 AW855389 gb: CM3-CT0275-191099-024-e06 CT0275 Homo 0.91 2.63 408075 AA382881 Hs.42409 CGI-146 protein 1.46 2.15 436826 AA731863 Hs.120276 ESTs 1.04 3.11 408961 AW297475 Hs.323180 ESTs 1.25 1.39 424408 AI754813 Hs.146428 collagen, type V, alpha 1 1.64 2.05 423300 AK000742 Hs.126774 L2DTL protein 1.47 3.44 403217 AL134878 ribosomal protein, large P2 1.70 2.22 437990 AI686579 Hs.121784 ESTs 2.14 1.69 419156 AC002366 Hs.46329 amelogenin (X chromosome, amelogenesis i 1.40 1.45 411817 BE302900 Hs.72241 mitogen-activated protein kinase kinase 1.18 1.12 425701 AA361850 Hs.322149 Human clone 137308 mRNA, partial cds 1.60 2.15 418757 AI864193 Hs.169728 hypothetical protein FLJ13150 1.57 2.23 415184 AA380436 Hs.211973 homolog of Yeast RRP4 (ribosomal RNA pro 1.32 2.09 414918 AI219207 Hs.72222 hypothetical protein FLJ13459 1.61 1.50 401723 Target Exon 1.01 2.68 439010 AW170332 Hs.75216 Homo sapiens cDNA FLJ13713 fis, clone PL 1.28 1.65 449166 BE168981 Hs.23131 kinesin family member C3 1.64 2.58 410642 AW792784 gb: CM0-UM0001-010300-258-h11 UM0001 Homo 1.54 1.90 409556 D38616 Hs.54941 phosphorylase kinase, alpha 2 (liver) 1.63 1.21 439894 AA853077 Hs.300697 immunoglobulin heavy constant gamma 3 (G 0.76 0.61 401913 ENSP00000249158*: CDNA 0.97 2.59 406097 Target Exon 1.11 1.23 414745 AA160511 Hs.5326 amino acid system N transporter 2; porcu 1.29 1.12 445752 AI733942 Hs.344887 ESTs 2.03 1.68 408052 AW501117 Hs.283585 ESTs 1.32 1.72 407256 AA204763 Hs.288036 tRNA isopentenylpyrophosphate transferas 1.01 2.09 423264 AJ133439 Hs.126076 Glutamate receptor interacting protein 1.51 2.39 418859 AA229558 gb: nc15d10.s1 NCI_CGAP_Pr1 Homo sapiens 1.40 2.35 410370 AB037753 Hs.62767 KIAA1332 protein 1.34 2.00 417264 AA195100 Hs.188695 ESTs 1.09 2.61 444909 AI933051 Hs.192280 ESTs 1.56 2.92 419386 AA236867 ESTs, Weakly similar to I38022 hypotheti 1.14 2.28 439212 AF087995 Hs.134877 ESTs 1.06 2.90 437766 W69171 Hs.71741 ESTs, Highly similar to I38945 melanoma 1.25 2.28 448951 AI611221 Hs.334802 hypothetical protein FLJ10101 1.88 2.17 401659 Target Exon 1.63 2.05 419145 N99638 gb: za39g11.r1 Soares fetal liver spleen 2.63 3.85 444813 AW054834 Hs.210356 ESTs 1.73 2.14 433902 AW292820 Hs.144906 ESTs 1.88 2.46 403072 NM_003319*: Homo sapiens titin (TTN), mRN 1.32 2.91 452484 AB033042 Hs.29679 cofactor required for Sp1 transcriptiona 0.72 0.70 456788 AA724612 Hs.133130 Homo sapiens mRNA; cDNA DKFZp566H0124 (f 1.90 3.40 403315 Target Exon 1.22 2.00 406432 AJ289116 CD1E antigen, e polypeptide 2.31 2.63 457785 AA682670 Hs.160884 ESTs 0.96 2.38 433259 AA580665 Hs.326082 ESTs 1.46 1.07 436882 AW016722 Hs.194976 SH2 domain-containing phosphatase anchor 1.38 2.13 401473 Target Exon 1.47 2.04 444816 Z48633 Hs.283742 H. sapiens mRNA for retrotransposon 1.64 2.15 438029 H61502 Hs.10235 chromosome 5 open reading frame 4 1.44 2.25 431830 Y16645 Hs.271387 small inducible cytokine subfamily A (Cy 1.26 2.21 450817 N71597 Hs.29698 ESTs, Weakly similar to ZN91_HUMAN ZINC 2.20 2.90 404427 C8000068*: gi|5453579|ref|NP_006120.1| bo 0.74 0.81 430658 AW970093 Hs.24453 ESTs 1.45 2.55 405723 Target Exon 1.60 2.28 436896 AW977385 Hs.278615 ESTs 1.17 1.64 411974 AW880414 Hs.84264 acidic protein rich in leucines 1.54 2.08 412528 AI123478 Hs.32112 ESTs 1.72 2.85 446425 AW295364 Hs.255418 ESTs 1.25 1.31 424991 AA775471 Hs.241467 ESTs 0.62 0.37 443100 AI033188 gb: ow94e08.s1 Soares_fetal_liver_spleen_(—) 1.15 2.34 445332 AI220225 Hs.321057 ESTs 1.07 2.00 414781 D50917 Hs.77293 KIAA0127 gene product 1.04 3.43 421893 NM_001078 Hs.109225 vascular cell adhesion molecule 1 1.15 2.53 424265 AF173901 Hs.144287 hairy/enhancer-of-split related with YRP 1.26 2.00 446667 BE161878 Hs.224805 ESTs 1.12 2.13 426399 AA652588 Hs.301348 Homo sapiens cDNA FLJ13271 fis, clone OV 2.26 1.29 438190 AA780020 Hs.136798 ESTs, Moderately similar to KBF3_HUMAN N 1.44 2.07 406972 M32053 gb: Human H19 RNA gene, complete cds. 1.38 2.11 417086 AA194446 ESTs, Weakly similar to S55024 nebulin, 2.12 3.30 446410 AI361109 Hs.151721 ESTs, Weakly similar to I38022 hypotheti 1.14 2.33 427674 NM_003528 Hs.2178 H2B histone family, member Q 1.24 1.00 422526 AA311763 Hs.131056 ESTs 1.29 2.04 439317 AF086127 Hs.50600 ESTs, Weakly similar to T47156 hypotheti 1.26 2.12 409126 AA063426 gb: zf70c08.s1 Soares_pineal_gland_N3HPG 1.28 2.20 412093 BE242691 Hs.14947 ESTs 0.87 2.58 420169 AA256126 Hs.16179 hypothetical protein FLJ23467 1.38 2.07 426096 D87436 Hs.166318 lipin 2 2.00 2.25 402551 NM_005012*: Homo sapiens receptor tyrosin 0.80 0.82 405760 Target Exon 1.44 2.85 402901 NM_025206*: Homo sapiens hypothetical pro 1.63 1.27 453982 AW014252 Hs.252837 ESTs 1.44 2.03 424244 AV647184 Hs.143601 hypothetical protein hCLA-iso 1.40 1.18 439984 BE559514 Hs.275425 hypothetical protein 1.30 2.15 457297 AW968188 gb: EST380383 MAGE resequences, MAGJ Homo 1.64 3.17 415054 AI733907 gb: zo86h09.y5 Stratagene ovarian cancer 1.00 2.20 426273 AI174861 Hs.190623 ESTs 1.19 1.16 405187 NM_014272: Homo sapiens a disintegrin-lik 1.31 1.35 413939 AL047051 Hs.199961 ESTs, Weakly similar to ALU7_HUMAN ALU S 2.44 1.88 427596 AA449506 Hs.270143 extracellular glycoprotein EMILIN-2 prec 2.06 1.50 408049 AW076098 Hs.345588 desmoplakin (DPI, DPII) 2.01 3.90 406002 Target Exon 1.73 2.08 408284 AW248254 Hs.44101 protein kinase PKNbeta 1.28 1.31 431377 AW178807 Hs.246182 ESTs 1.40 2.70 451456 AW386183 Hs.210305 ESTs 1.44 2.08 427530 AA405093 Hs.126519 ESTs 1.07 1.12 431957 AK002104 Hs.272246 hypothetical protein FLJ11292 1.27 2.89 422283 AW411307 Hs.114311 CDC45 (cell division cycle 45, S. cerevis 1.74 1.28 419600 AA448958 Hs.91481 NEU1 protein 1.13 1.15 423314 AI400661 Hs.127811 disintegrin metalloproteinase with throm 1.44 2.53 451690 AW451469 Hs.209990 ESTs 1.41 2.49 454662 AW812715 gb: RC4-ST018-271099-011-g01 ST0185 Homo 1.35 2.86 454413 AI653672 Hs.40092 PNAS-123 1.79 2.03 416861 AW977206 Hs.151858 ESTs 1.52 2.10 415908 H08623 Hs.22833 ESTs 1.37 2.13 438942 AW875398 Hs.6451 PRO0659 protein 1.80 1.55 407618 AW054922 Hs.53478 Homo sapiens cDNA FLJ12366 fis, clone MA 2.16 3.18 429177 AA447527 Hs.207429 ESTs 1.74 3.19 448357 N20169 Hs.108923 RAB38, member RAS oncogene family 0.77 0.73 422008 AJ000534 Hs.110708 sarcoglycan, epsilon 1.52 4.08 434461 AA744046 Hs.133350 ESTs, Weakly similar to I78885 serine/th 1.66 2.16 413489 BE144228 gb: MR0-HT0165-140200-009-d04 HT0165 Homo 1.28 2.23 405551 Target Exon 1.11 1.19 441183 BE562910 Hs.92679 Homo sapiens clone CDABP0014 mRNA sequen 1.20 1.20 456034 AW450979 gb: UI-H-BI3-ala-a-12-0-UI.s1 NCI_CGAP_Su 1.98 2.53 420611 AA994635 Hs.129929 ESTs 1.46 2.15 422061 BE178434 Hs.267995 ESTs, Moderately similar to G02654 ribos 1.42 2.30 437908 AI082424 ESTs 1.38 2.21 423052 M28214 Hs.123072 RAB3B, member RAS oncogene family 0.74 0.43 401927 C17000914*: gi|8394367|ref|NP_058549.1| s 2.26 2.14 432967 AA572949 Hs.207566 ESTs 1.52 2.28 439159 AF087972 Hs.120938 ESTs 2.03 2.08 415357 H22757 Hs.13471 ESTs 1.82 2.07 442327 AA991745 Hs.42522 ESTs 1.48 2.88 430186 AB020696 Hs.234791 KIAA0889 protein 1.46 2.23 426971 AI809984 Hs.243209 ESTs, Weakly similar to NPA1_HUMAN NEURO 1.06 2.13 422687 AW068823 Hs.119206 insulin-like growth factor binding prote 1.61 1.37 432954 AI076345 Hs.214199 ESTs 1.19 2.84 429040 AL035542 Hs.248169 olfactory receptor, family 2, subfamily 1.25 1.44 414169 AA136169 Hs.149335 ESTs 1.59 2.51 419882 AA687313 Hs.190043 ESTs 1.20 2.50 426900 AW163564 Hs.142375 ESTs 1.87 1.77 418773 T39748 Hs.325474 Target CAT 1.35 2.02 439776 AL360140 Hs.176005 Homo sapiens mRNA full length insert cDN 1.32 2.10 428712 AW085131 Hs.190452 KIAA0365 gene product 1.41 1.52 408839 AW277084 gb: xp61h09.x1 NCI_CGAP_Ov39 Homo sapiens 1.14 2.03 450492 AW290961 Hs.201815 ESTs 1.17 2.21 434654 AI825942 Hs.139366 Homo sapiens clone L5 polyadenylated HER 1.62 2.31 457567 AW939074 gb: QV1-DT0069-010200-057-c12 DT0069 Homo 1.80 3.73 452426 AI904823 Hs.31297 duodenal cytochrome b 2.15 1.84 418559 AA225048 Hs.104207 ESTs 1.84 2.33 439099 AB037800 Hs.6462 protein kinase C and casein kinase subst 1.07 1.15 451984 R60571 Hs.27406 Homo sapiens mRNA; cDNA DKFZp566F1946 (f 1.18 1.22 420789 AI670057 Hs.199882 ESTs 2.24 2.55 456396 AA236863 Hs.188894 ESTs, Weakly similar to APXL_HUMAN APICA 1.07 1.14 402948 NM_025206: Homo sapiens hypothetical prot 2.41 1.83 426405 AW296631 Hs.283403 ESTs 1.28 1.07 439732 AW629604 Hs.167641 hypothetical protein from EUROIMAGE 1703 0.85 0.77 416784 AA334592 Hs.79914 lumican 1.88 1.27 422531 AW967280 Hs.293894 ESTs, Weakly similar to HERC2 [H. sapiens 1.20 1.25 415608 F12795 Hs.12286 ESTs, Moderately similar to ALU1_HUMAN A 1.03 2.31 428671 BE297851 Hs.189482 zinc finger protein 179 1.26 2.20 420007 H13700 Hs.31235 ESTs, Weakly similar to Y934_HUMAN HYPOT 1.60 2.25 400850 Target Exon 1.22 1.03 404580 trichorhinophalangeal syndrome I gene (T 1.00 1.00 407680 AW064284 Hs.279153 ESTs 1.02 2.28 410420 AA224053 Hs.172405 cell division cycle 27 1.64 1.00 421234 AA907153 Hs.190060 ESTs 1.76 1.45 426791 AA384910 Hs.46519 ESTs 1.12 2.15 430439 AL133561 DKFZP434B061 protein 1.00 1.00 434036 AI659131 Hs.197733 hypothetical protein MGC2849 1.00 1.00 438915 AA280174 Hs.285681 Williams-Beuren syndrome chromosome regi 1.40 1.00 440304 BE159984 Hs.125395 ESTs 1.00 1.00 441699 AW511126 Hs.127572 ESTs 1.00 1.73 443383 AI792453 Hs.166507 ESTs 2.04 1.00 445660 AI702668 Hs.201955 ESTs 1.00 1.00 453160 AI263307 Hs.239884 H2B histone family, member L 1.00 1.00 456513 AA279143 Hs.88561 ESTs 1.00 1.40 457231 AI472022 Hs.301959 proline synthetase co-transcribed (bacte 0.98 0.63 459565 W27086 Hs.209694 ESTs 1.00 1.00 429317 AA831552 Hs.268016 Homo sapiens cDNA: FLJ21243 fis, clone C 1.00 1.00 430971 M26150 Hs.248177 H3 histone family, member L 1.14 1.40 408376 AW971303 Hs.292601 ESTs 1.08 1.60 411920 AW876263 gb: PM4-PT0019-131299-006-E09 PT0019 Homo 0.82 0.45 457389 AW970989 gb: EST383074 MAGE resequences, MAGK Homo 0.92 0.71 408565 BE502544 Hs.282244 ESTs, Weakly similar to peptidoglycan re 1.00 2.10 438086 AA336519 Hs.83623 nuclear receptor subfamily 1, group I, m 1.00 1.00 446779 AI341135 Hs.156084 ESTs 1.06 2.02 441691 AI015418 Hs.127556 ESTs 1.13 2.03 402039 Target Exon 0.44 0.36 437133 AB018319 Hs.5460 KIAA0776 protein 0.95 0.63 438089 W05391 nuclear receptor subfamily 1, group I, m 3.12 1.00 409582 R27430 Hs.271565 ESTs 1.00 1.00 428769 AW207175 Hs.106771 ESTs 1.00 1.48 442868 AI022701 Hs.336984 ESTs 1.27 1.62 439559 AW364675 Hs.173921 ESTs, Weakly similar to 2109260A B cell 1.00 1.33 426958 R18845 Hs.172979 zinc finger protein 177 1.24 2.25 419015 T79262 Hs.14463 ESTs 1.16 2.03 415806 AA169560 gb: zo89d08. r1 Stratagene ovarian cancer 1.00 1.33 436110 AA704899 Hs.291651 ESTs, Weakly similar to I38022 hypotheti 1.60 2.21 458760 AI498631 Hs.111334 ferritin, light polypeptide 1.10 1.43 447342 AI199268 Hs.19322 Homo sapiens, Similar to RIKEN cDNA 2010 1.28 1.00 438182 AW342140 Hs.182545 ESTs, Weakly similar to ALU1_HUMAN ALU S 0.90 2.31 438091 AW373062 nuclear receptor subfamily 1, group I, m 4.70 1.00 441633 AW958544 Hs.112242 normal mucosa of esophagus specific 1 2.48 1.00 432222 AI204995 gb: an03c03.x1 Stratagene schizo brain S1 1.96 2.84 416055 Z45423 Hs.13349 Homo sapiens cDNA FLJ14647 fis, clone NT 1.52 1.46 417895 AA836392 Hs.56237 hypothetical protein FLJ20495 1.05 1.18 422959 AV647015 paired immunoglobulin-like receptor beta 1.33 1.25 408969 AW297929 Hs.328317 EST 1.88 2.07 409536 H59024 Hs.14485 Homo sapiens cDNA: FLJ23220 fis, clone A 1.18 2.38 447449 AW137091 Hs.18624 KIAA1052 protein 1.07 1.13 437315 AW976247 Hs.153248 ESTs 1.16 2.53 459317 BRCA1b Eos Control 1.36 1.32 405137 Target Exon 1.11 1.18 400366 M22333 Target 1.55 1.42 423413 AA325560 Hs.346401 ESTs 1.78 1.57 433972 AI878910 Hs.278670 cisplatin resistance-associated overexpr 1.62 2.98 440748 AW451780 Hs.130363 ESTs 1.42 2.14 422637 AA399024 Hs.118836 myoglobin 1.46 2.38 432342 AL036128 Hs.274404 plasminogen activator, tissue 1.67 1.10 442820 AW293459 Hs.172681 ESTs 1.02 1.13 436573 AA723297 Hs.127138 ESTs 1.18 1.15 403779 Target Exon 1.13 1.15 447686 AI939440 Hs.345192 ESTs 1.66 2.78 447506 R78778 Hs.29808 Homo sapiens cDNA: FLJ21122 fis, clone C 1.44 2.48 425853 BE348404 Hs.24740 ESTs 1.40 2.75 454457 AW753456 gb: QV2-CT0261-261099-011-d11 CT0261 Homo 1.52 2.00 424132 AA335715 Hs.200299 ESTs 1.34 1.32 421707 NM_014921 Hs.107054 lectomedin-2 1.09 1.14 442871 AI290691 Hs.131393 ESTs 1.40 2.50 448489 AI523875 gb: tg97d04.x1 NCI_CGAP_CLL1 Homo sapiens 1.31 2.20 436365 AW444548 Hs.163118 ESTs 1.07 1.12 415733 AI052628 Hs.271570 ESTs, Weakly similar to 2109260A B cell 1.91 2.01 413888 AA580288 gb: nn12d01.s1 NCI_CGAP_Co12 Homo sapiens 1.75 1.93 408063 BE086548 Hs.42346 calcineurin-binding protein calsarcin-1 1.92 1.73 442959 AI025248 Hs.6927 ESTs 1.05 1.12 409610 AW444736 Hs.27864 ESTs 1.62 2.45 424793 AI559696 Hs.298885 ESTs 1.37 2.78 449977 C16939 Hs.297848 ESTs 1.52 4.57 414051 BE244127 gb: TCBAP1E0661 Pediatric pre-B cell acut 1.68 2.84 422400 AA974434 Hs.128353 ESTs 1.04 2.20 443908 AW295791 Hs.13040 G protein-coupled receptor 86 1.47 2.10 439316 AF086126 Hs.118208 Homo sapiens cDNA FLJ11727 fis, clone HE 2.08 0.59 438505 AA808948 Hs.173776 ESTs, Moderately similar to ALU1_HUMAN A 1.44 2.73 436196 AK001084 Hs.333498 Homo sapiens cDNA FLJ10222 fis, clone HE 2.17 1.00 453740 AL120295 Hs.311809 ESTs, Moderately similar to PC4259 ferri 1.88 2.58 431756 R69465 Hs.255889 ESTs 1.12 1.30 424487 T08754 Hs.6259 KIAA1698 protein 1.15 1.15 435392 R07195 Hs.19918 ESTs 1.38 2.64 430068 AA464964 gb: zx80f10.s1 Soares ovary tumor NbHOT H 0.92 2.12 418741 H83265 Hs.8881 ESTs, Weakly similar to S41044 chromosom 1.44 2.51 411664 BE065069 Hs.270833 amphiregulin (schwannoma-derived growth 1.94 2.33 416586 D44643 Hs.14144 secreted modular calcium-binding protein 1.72 2.68 419612 AI498267 Hs.110613 KIAA0421 protein 2.28 2.46 435800 AI248285 Hs.118348 ESTs 1.42 2.45 433363 AA584829 Hs.275163 non-metastatic cells 2, protein (NM23B) 2.07 2.53 422936 AA319278 gb: EST21478 Adrenal gland tumor Homo sap 1.46 1.22 413358 BE259160 Hs.75313 aldo-keto reductase family 1, member B1 1.43 1.43 435357 N71620 Hs.118173 ESTs 1.44 2.93 441063 AA913819 Hs.188025 ESTs 1.20 2.80 450724 R55428 gb: yj79b05.r1 Soares breast 2NbHBst Homo 1.44 4.18 430446 AF131782 Hs.241438 Homo sapiens clone 24941 mRNA sequence 1.03 2.34 401577 NM_000761: Homo sapiens cytochrome P450, 1.13 1.22 403978 C5000010*: gi|10440464|dbj|BAB15765.1| (A 1.22 1.66 459702 AI204995 gb: an03c03.x1 Stratagene schizo brain S1 2.72 4.60 416708 H78836 Hs.181900 ESTs, Moderately similar to ALU1_HUMAN A 1.36 2.03 451410 AL110235 Hs.26358 DKFZP566K1924 protein 1.51 2.28 451159 AW298631 Hs.27721 Wolf-Hirschhorn syndrome candidate 1-lik 1.33 1.09 448455 AI252625 Hs.269860 ESTs, Moderately similar to S65657 alpha 0.83 0.40 444020 R92962 Hs.35052 ESTs 1.66 2.50 414623 BE391050 gb: 601285674F1 NIH_MGC_44 Homo sapiens c 1.84 3.88 454915 AW841619 gb: RC1-CN0017-120200-012-b09 CN0017 Homo 1.14 2.10 444064 W85970 Hs.16292 ESTs 0.80 0.63 454353 AW389693 Hs.300700 hypothetical protein FLJ20727 1.30 2.10 447794 AI424999 Hs.161445 EST 1.26 2.05 426686 AI362802 Hs.171814 parathymosin 1.16 1.11 435815 AA700482 Hs.113157 ESTs 1.66 2.73 432482 L19267 Hs.275924 dystrophia myotonica-containing WD repea 1.10 1.15 431062 AA491270 Hs.187946 ESTs 1.44 2.60 429191 AF065215 Hs.198161 phospholipase A2, group IVB (cytosolic) 1.35 1.06 424456 AA341017 Hs.25549 hypothetical protein FLJ20898 1.21 3.45 451124 AI186203 Hs.31432 cardiac ankyrin repeat protein 1.23 2.10 432828 AB042326 Hs.287402 chondroitin 4-sulfotransferase 1.11 2.71 431868 BE246400 Hs.285176 acetyl-Coenzyme A transporter 1.03 3.10 429321 AA449921 gb: zx37g07.r1 Soares _total_fetus_Nb2HF8_(—) 1.68 2.93 417890 R79048 gb: yi87g02.r1 Soares placenta Nb2HP Homo 1.32 1.80 439590 AF086410 gb: Homo sapiens full length insert cDNA 1.32 2.43 420232 AW450051 Hs.256295 ESTs 1.28 2.26 418927 BE349635 Hs.190284 ESTs 1.46 1.23 441940 AW298115 Hs.128152 ESTs 1.34 1.34 401090 C9000193*: gi|6330729|dbj|BAA86547.1| (AB 1.50 1.40 409136 AW206670 Hs.50748 chromosome 21 open reading frame 18 1.02 2.38 438267 AW205708 Hs.292725 ESTs, Weakly similar to T18818 hypotheti 1.28 2.25 422482 AI439905 Hs.344476 gb: ti57g08.x1 NCI_CGAP_Lym12 Homo sapien 1.05 2.81 420067 T52431 Hs.94795 Homo sapiens mRNA; cDNA DKFZp564O222 (fr 1.77 2.40 442180 AA983913 Hs.128929 ESTs 1.76 2.38 434256 AI378817 Hs.191847 ESTs 1.05 2.06 444519 AI160304 Hs.28313 ESTs 0.55 0.63 454459 AW855738 Hs.17767 KIAA1554 protein 1.10 2.05 455988 BE177983 gb: RC3-HT0600-230300-021-g10 HT0600 Homo 1.70 2.64 444510 AI367823 Hs.146872 ESTs 1.44 2.08 456210 N49729 Hs.156875 ESTs 1.64 2.65 450569 AW192334 Hs.38218 ESTs 1.78 2.71 414921 BE390551 Hs.77628 steroidogenic acute regulatory protein r 1.05 1.12 401381 C14000165: gi|12698069|dbj|BAB21853.1| (A 0.63 0.85 439998 BE559554 Hs.61790 hypothetical protein FLJ23338 1.06 1.14 453762 AW977286 Hs.17428 RBP1-like protein 1.42 2.68 419403 AA744520 Hs.87734 ESTs, Weakly similar to nonsyndromic hea 0.99 2.17 423736 AW936874 gb: RC1-DT0029-120100-011-f07 DT0029 Homo 2.05 1.56 421186 AI798039 Hs.270563 ESTs, Moderately similar to T12512 hypot 1.29 1.31 426435 AI827946 Hs.124854 hypothetical brain protein my040 1.36 1.59 439312 AA833902 Hs.270745 ESTs 1.60 2.50 407924 BE537128 Hs.299797 ESTs 1.51 1.15 409692 AI500724 KIAA1550 protein 1.72 2.21 415449 H15034 gb: ym20a03.s1 Soares infant brain 1NIB H 1.50 2.13 423436 R21176 Hs.100926 ESTs 1.18 2.60 458697 AI797713 Hs.156471 ESTs 1.54 2.20 415770 M79237 gb: EST01385 Subtracted Hippocampus, Stra 1.49 1.55 449279 AI962312 Hs.224976 ESTs, Weakly similar to CRX_HUMAN CONE-R 2.50 3.60 429735 AA458759 Hs.188794 ESTs 1.84 2.31 442124 R66412 Hs.129013 Homo sapiens cDNA FLJ14309 fis, clone PL 1.10 1.19 412557 AA761612 Hs.291557 ESTs 1.10 1.18 409335 NM_001502 Hs.53985 glycoprotein 2 (zymogen granule membrane 1.18 1.12 430526 AF181862 Hs.242407 G protein-coupled receptor, family C, gr 1.35 2.39 420855 AA281092 Hs.33417 Homo sapiens cDNA: FLJ22806 fis, clone K 1.22 2.09 450567 AA033904 Hs.269235 ESTs 1.60 2.20 414197 W44877 Hs.55501 ESTs 1.06 2.08 448800 AI571294 Hs.298889 ESTs, Moderately similar to ALU1_HUMAN A 1.65 2.79 421338 AA287443 gb: zs52c10.r1 NCI_CGAP_GCB1 Homo sapiens 1.47 2.90 412679 BE144762 gb: CM0-HT0180-041099-065-b04 HT0180 Homo 1.32 2.53 417882 R22311 gb: yh26c09.r1 Soares placenta Nb2HP Homo 1.58 2.43 425112 AW953291 Hs.64211 hypothetical protein MGC5601 0.70 0.63 401658 C16000210: gi|12585542|sp|O14771|Z213_HUM 1.68 2.04 409325 AW377549 Hs.17865 ESTs 1.68 2.21 437402 AI553976 Hs.121191 ESTs 1.20 2.35 433455 AA360439 Hs.89319 ESTs 0.98 2.53 457329 AI634860 Hs.247043 type 1 tumor necrosis factor receptor sh 0.59 0.43 434830 AW852235 gb: QV0-CT0225-230300-169-e11 CT0225 Homo 1.24 1.12 450696 AI654223 Hs.16026 hypothetical protein FLJ23191 1.44 2.53 446098 AW072215 Hs.208470 ESTs 1.38 2.93 443310 BE552018 Hs.133152 ESTs 0.85 0.83 424015 N95696 Hs.166361 Homo sapiens mRNA; cDNA DKFZp564F112 (fr 1.42 2.25 420229 AA256675 Hs.194058 ESTs, Weakly similar to AF252293 1 PAR3 1.70 2.39 403371 Target Exon 1.50 3.43 410744 H86002 gb: ys92b01.r1 Soares retina N2b5HR Homo 1.32 2.13 424160 T74062 gb: yc81f01.r1 Soares infant brain 1NIB H 1.30 2.17 438818 AW979008 Hs.222487 ESTs 1.98 2.43 438791 AA825750 Hs.129983 ESTs 1.12 2.15 411206 AW827390 Hs.16899 ESTs 1.17 2.58 432211 BE274530 Hs.273333 hypothetical protein FLJ10986 0.42 0.30 448918 AB011152 Hs.22572 KIAA0580 protein 1.54 2.63 424496 AI733451 Hs.167165 hypothetical protein FLJ12975 1.39 2.25 410730 AW368860 DnaJ (Hsp40) homolog, subfamily B, membe 1.84 3.23 457581 AA578512 gb: nh22e11.s1 NCI_CGAP_Pr1 Homo sapiens 1.21 1.09 435353 AW243062 Hs.190348 ESTs 1.90 2.98 417029 AW952192 Hs.273385 guanine nucleotide binding protein (G pr 1.21 1.24 433682 AA642418 Hs.17381 ESTs 1.18 2.23 424915 R42755 Hs.23096 ESTs 1.60 2.73 442201 AW516704 Hs.208726 ESTs 1.74 3.20 429111 AI870811 Hs.7579 KIAA1151 protein 1.27 1.40 429282 N27596 Hs.21342 ESTs 1.84 3.73 436604 AW105129 Hs.242158 ESTs 1.27 2.70 448712 W01046 Hs.333371 Homo sapiens clone TA40 untranslated mRN 0.79 2.70 412274 AA101443 gb: zn74a07.r1 Stratagene NT2 neuronal pr 1.40 2.53 403859 C5001408*: gi|12621134|ref|NP_075244.1|M 1.76 2.00 451521 AA018237 Hs.128189 gb: ze53a02.r1 Soares retina N2b4HR Homo 1.48 2.51 443210 AI692649 Hs.9451 hypothetical protein MGC13168 1.44 2.60 442722 AL048889 Hs.131029 ESTs, Weakly similar to B28096 line-1 pr 1.20 2.25 400840 Target Exon 0.66 0.60 454639 AW811633 gb: RC2-ST0158-091099-011-d05 ST0158 Homo 1.23 1.41 439864 AI720078 Hs.291997 ESTs, Weakly similar to A47582 B-cell gr 1.77 2.12 410725 AW799279 gb: RC0-UM0051-210300-012-h06 UM0051 Homo 1.08 2.55 423430 AF112481 Hs.128501 RAD54, S. cerevisiae, homolog of, B 1.94 2.29 450717 T94709 gb: ye35d09.r1 Stratagene lung (937210) H 1.56 2.64 400314 NM_018949 Hs.192720 G protein-coupled receptor 14 0.89 0.87 434947 AA654320 Hs.183819 Homo sapiens cDNA FLJ12304 fis, clone MA 1.19 2.14 453582 AW854339 Hs.33476 hypothetical protein FLJ11937 1.24 2.19 409005 AW299806 Hs.297256 ESTs 1.24 2.03 406584 Target Exon 1.52 2.37 420203 AA256374 Hs.191069 ESTs 1.16 1.37 406156 Target Exon 1.18 1.17 422132 AB002337 Hs.112078 KIAA0339 gene product 1.08 1.16 441371 AW452292 Hs.197354 ESTs 1.19 2.00 434807 AA364183 Hs.323443 hypothetical protein FLJ11806 1.30 2.76 424542 AI860558 Hs.272009 ESTs, Weakly similar to ALU2_HUMAN ALU S 1.48 2.48 450893 AK002185 Hs.25625 hypothetical protein FLJ11323 1.15 1.57 418481 M81945 Hs.85289 CD34 antigen 2.16 1.76 443077 AI459490 Hs.60090 Homo sapiens cDNA FLJ13595 fis, clone PL 1.36 2.41 437521 AA758756 Hs.121380 ESTs 1.07 2.05 430265 L36033 Hs.237356 stromal cell-derived factor 1 2.34 1.35 446898 AV660906 Hs.184411 albumin 1.52 1.33 429725 AA457367 Hs.191638 ESTs 1.38 3.00 425114 AW409763 Hs.50699 ESTs, Weakly similar to 2109260A B cell 1.13 2.34 419879 Z17805 Hs.93564 Homer, neuronal immediate early gene, 2 1.62 1.71 435284 AA879470 Hs.96849 Homo sapiens cDNA FLJ11492 fis, clone HE 1.20 2.50 415634 F13165 Hs.12549 ESTs, Weakly similar to 2109260A B cell 1.46 2.35 420565 AI806770 Hs.30258 ESTs 1.39 3.85 419494 W01060 Hs.34382 ESTs 1.10 1.75 458183 AL031591 Hs.7370 phosphotidylinositol transfer protein, b 1.28 2.24 416620 R93080 Hs.35035 ESTs 1.81 2.58 431356 AW499632 Hs.288512 Homo sapiens cDNA FLJ11632 fis, clone HE 1.42 2.03 433282 BE539101 Hs.5324 hypothetical protein 0.33 0.20 456898 NM_001928 Hs.155597 D component of complement (adipsin) 1.50 0.95 458126 AW979136 Hs.124629 ESTs 1.34 1.32 414005 AA134489 Hs.269379 ESTs 1.52 2.07 411496 AW849241 gb: IL3-CT0215-210200-088-E03 CT0215 Homo 1.10 2.21 451147 AA016982 Hs.64341 ESTs 1.53 2.29 450238 T89693 Hs.138777 ESTs 1.32 2.28 449284 BE502240 Hs.38592 hypothetical protein FLJ23342 1.46 1.40 449479 AI797619 Hs.197659 ESTs 0.72 0.66 403066 Target Exon 1.32 1.19 410118 AW590680 Hs.110802 von Willebrand factor 1.72 2.54 437674 AI749921 Hs.205377 ESTs 1.38 2.21 431065 AA491286 Hs.128792 ESTs 1.30 2.08 416352 H78006 Hs.19553 ESTs 1.05 1.14 452565 BE066552 gb: RC3-BT0333-300300-017-h08 BT0333 Homo 1.46 2.53 418115 AW005376 Hs.173280 ESTs 1.20 0.98 422031 R66895 Hs.28788 ESTs 1.37 1.37 446269 AW263155 Hs.14559 hypothetical protein FLJ10540 1.64 2.20 457683 AI821877 Hs.140002 ESTs, Moderately similar to ALU7_HUMAN A 1.03 2.35 435521 W23814 Hs.6361 mitogen-activated protein kinase kinase 0.73 0.59 438874 H02780 Hs.347520 gb: yj41a11.r1 Soares placenta Nb2HP Homo 1.56 2.73 441167 AA921754 Hs.211781 ESTs 1.74 2.12 455917 BE156765 gb: RC1-HT0370-120100-012-c09 HT0370 Homo 1.29 1.35 419058 AW675039 Hs.1227 aminolevulinate, delta-, dehydratase 2.04 1.83 408651 BE266928 Hs.17126 hypothetical protein MGC15912 1.30 1.23 442737 AB002319 Hs.8663 KIAA0321 protein 0.85 0.79 407134 T51588 gb: yb27e06.s1 Stratagene fetal spleen (9 1.23 0.97 447492 AI381619 Hs.20188 ESTs 1.26 2.28 437840 AA884836 Hs.292014 ESTs 2.05 2.29 412294 AA689219 Hs.117176 poly(A)-binding protein, nuclear 1 1.47 3.55 419909 AL136653 Hs.93675 decidual protein induced by progesterone 1.10 2.18 432569 AI131140 Hs.152434 ESTs 1.34 1.83 412252 AW903782 gb: CM4-NN1032-190400-527-g09 NN1032 Homo 1.26 2.00 444298 Z17870 gb: HSDHII020 Stratagene cDNA library Hum 1.36 2.68 445261 T79759 Hs.250651 ESTs, Weakly similar to I38022 hypotheti 0.95 2.23 418315 T06475 Hs.124962 Homo sapiens, clone IMAGE: 3510191, mRNA, 0.82 0.82 440357 AA379353 Hs.20950 phospholysine phosphohistidine inorganic 0.83 0.68 440867 AI417007 Hs.166338 ESTs 1.45 1.50 410956 AW938322 gb: PM1-DT0054-231299-002-c02 DT0054 Homo 1.06 2.95 446574 AI310135 Hs.335933 ESTs 1.54 2.45 447912 AW576549 Hs.165728 ESTs, Weakly similar to I38022 hypotheti 1.22 2.07 457741 BE044740 gb: hm55g10.x1 NCI_CGAP_RDF1 Homo sapiens 1.89 2.08 433762 AA732484 Hs.169399 ESTs 1.24 2.58 418156 W17056 Hs.83623 nuclear receptor subfamily 1, group I, m 3.71 1.38 409282 AW966480 gb: EST378554 MAGE resequences, MAGI Homo 1.70 1.70 425169 AW292500 Hs.128514 ESTs 1.13 1.12 458497 AI161428 Hs.75916 splicing factor 3b, subunit 2, 145 kD 1.26 2.28 405673 NM_022775: Homo sapiens hypothetical prot 2.00 1.00 442691 AW341438 Hs.278036 ESTs 1.38 2.28 424316 AA676403 Hs.145078 regulator of differentiation (in S. pomb 1.06 2.10 444608 AI174683 Hs.329863 ESTs 1.95 1.82 447345 BE247767 Hs.18166 KIAA0870 protein 1.26 2.10 439848 AW979249 gb: EST391359 MAGE resequences, MAGP Homo 1.68 2.63 428946 D42046 Hs.194665 DNA2 (DNA replication helicase, yeast, h 1.32 2.33 403214 NM_016232*: Homo sapiens interleukin 1 re 1.02 2.15 404495 C8001441*: gi|8923061|ref|NP_060114.1|hy 2.20 2.49 443471 AW236939 Hs.172154 Homo sapiens clone FLB3442 PRO0872 mRNA, 1.58 1.74 437116 AL049253 Hs.190162 ESTs 1.22 2.53 451357 AB020640 Hs.26319 Human DNA sequence from clone RP3-467L1 0.94 2.35 408255 AW807321 gb: MR4-ST0062-240300-003-g05 ST0062 Homo 1.12 1.39 448931 AI597806 Hs.192671 ESTs 1.30 3.29 422343 AI628633 Hs.346823 gb: ty77d05.x1 NCI_CGAP_Kid11 Homo sapien 1.86 2.32 407140 AA059106 Hs.271780 ESTs, Weakly similar to I38022 hypotheti 1.37 1.01 429187 AA447648 Hs.163872 ESTs, Weakly similar to S65657 alpha-1C- 1.74 1.55 423614 AI457640 Hs.206632 ESTs 1.48 2.83 429073 AA446167 Hs.47385 ESTs 1.24 2.00 415732 AA167566 Hs.271570 ESTs, Weakly similar to 2109260A B cell 1.31 2.34 412634 U55984 Hs.289088 heat shock 90 kD protein 1, alpha 0.42 0.22 415274 AF001548 Hs.78344 myosin, heavy polypeptide 11, smooth mus 1.94 1.27 415007 BE244332 Hs.77770 adaptor-related protein complex 3, mu 2 0.78 0.71 402654 Target Exon 0.90 0.85 457974 AW842353 Hs.321717 ESTs, Weakly similar to S22765 heterogen 0.86 0.90 405340 C2002952: gi|1345964|sp|P10079|FBP1_STRPU 1.46 2.33 426259 BE395776 Hs.168640 ankylosis, progressive (mouse) homolog 1.63 2.75 442237 AW905607 Hs.24567 ESTs, Weakly similar to KBF3_HUMAN NUCLE 1.08 3.38 456370 AA234938 Hs.87384 ESTs 0.77 2.83 407041 X15673 gb: Human pTR2 mRNA for repetitive sequen 2.00 1.84 452001 AI827675 Hs.274281 fidgetin 1.38 2.03 445137 AI733837 Hs.145661 ESTs 1.60 3.00 440808 AK001339 Hs.7432 hypothetical protein FLJ10477 1.17 2.10 404418 Target Exon 1.90 3.36 447658 AI916872 Hs.213424 ESTs 1.90 2.21 434414 AI798376 gb: tr34b07.x1 NCI_CGAP_Ov23 Homo sapiens 1.58 1.24 400834 NM_002240*: Homo sapiens potassium inward 1.25 2.33 449542 AW857362 Hs.268855 ESTs, Weakly similar to I38022 hypotheti 1.46 1.28 441043 AA913422 Hs.192104 ESTs 1.26 1.09 403391 C3001164*: gi|1730196|sp|P50573|GAR3_RAT 1.46 2.55 449129 AI631602 Hs.258949 ESTs 1.27 2.48 418321 D63477 Hs.84087 KIAA0143 protein 0.56 0.52 426789 F06596 Hs.23837 Homo sapiens cDNA FLJ11812 fis, clone HE 1.31 2.06 443679 AK001810 Hs.9670 hypothetical protein FLJ10948 1.34 1.22 428554 R46070 Hs.6407 ESTs 1.04 2.08 401890 Target Exon 1.24 1.14 419501 AW843822 gb: CM4-CN0045-010200-514-f08 CN0045 Homo 1.74 1.38 457096 AI809202 Hs.208343 ESTs, Weakly similar to cerebroside sulf 0.82 0.87 426123 AA370352 gb: EST82246 Prostate gland I Homo sapien 1.28 2.35 449445 AW197349 Hs.232197 ESTs 1.24 2.13 430683 AC004862 Hs.247768 Homo sapiens PAC clone RP4-697H17 from 7 1.30 2.00 440642 AI744995 ESTs, Moderately similar to ALU4_HUMAN A 1.29 2.44 455236 AW875972 gb: CM3-PT0014-071299-051-b05 PT0014 Homo 1.78 2.95 449622 AW013915 Hs.196578 ESTs 1.42 2.20 415116 AA160363 Hs.269956 ESTs 2.02 1.03 457269 AI338993 Hs.134535 ESTs 1.93 1.35 427877 AW138725 Hs.178067 ESTs 1.91 2.42 454631 AW811324 gb: IL3-ST0141-131099-017-A02 ST0141 Homo 1.00 3.13 458390 AI792585 Hs.133272 ESTs, Weakly similar to ALUC_HUMAN !!!! 1.02 2.21 435844 AA700856 Hs.59651 ESTs, Weakly similar to 178885 serine/th 0.85 0.81 427237 AA399964 Hs.97763 ESTs 1.57 1.44 408855 T83061 Hs.319946 Homo sapiens mRNA for KIAA1727 protein, 1.20 3.13 442151 AI733404 Hs.128865 ESTs 1.50 2.13 412708 R26830 Hs.106137 ESTs, Weakly similar to CGHU7L collagen 1.16 3.00 417262 AA195276 Hs.263858 ESTs, Moderately similar to B34087 hypot 1.25 2.40 419362 N64116 Hs.24624 hypothetical protein FLJ21945 1.38 2.48 447248 AW295831 Hs.6496 ESTs 1.56 2.03 415622 F13010 Hs.12400 ESTs 1.48 2.30 414065 AW515373 Hs.271249 Homo sapiens cDNA FLJ13580 fis, clone PL 1.26 2.88 414585 W46954 Hs.334716 hypothetical protein MGC16291 1.24 2.05 443197 Z43613 gb: HSC1GD091 normalized infant brain cDN 1.11 2.04 428266 AI382001 Hs.43590 ESTs 1.09 2.03 447083 AI472124 Hs.157757 ESTs 1.66 3.53 412302 AW936334 gb: QV4-DT0021-281299-070-g05 DT0021 Homo 1.74 3.00 445555 AW974013 ESTs 1.32 1.29 453117 AW162044 Hs.104203 hypothetical protein MGC12981 0.73 0.81 436757 AW975663 Hs.293404 ESTs, Weakly similar to ALU1_HUMAN ALU S 2.21 1.88 431976 AA719001 Hs.291065 ESTs 1.23 2.01 430657 AA482910 Hs.279664 ESTs 1.64 2.65 438744 BE314727 Hs.75721 profilin 1 0.85 0.85 439325 AF086139 Hs.150423 cyclin-dependent kinase 9 (CDC2-related 1.16 2.05 438117 AA328041 Hs.194329 hypothetical protein FLJ21174 0.79 0.76 401686 NM_014587*: Homo sapiens SRY (sex determi 1.32 2.31 420269 U72937 Hs.96264 alpha thalassemia/mental retardation syn 0.78 0.53 434288 AW189075 Hs.116265 fibrillin3 2.42 4.23 433215 AB040912 Hs.191098 hypothetical protein FLJ11598 1.36 1.36 413429 BE139117 Hs.278881 ESTs 1.30 2.98 426417 AA377908 Hs.13254 ESTs 1.36 1.77 413882 AA132973 Hs.184492 ESTs 1.55 2.10 413346 AA128586 gb: zI24h06.r1 Soares_pregnant_uterus_NbH 1.29 1.77 445020 AI205655 Hs.147221 ESTs 1.90 2.00 418175 AW967054 Hs.206312 ESTs, Weakly similar to I38022 hypotheti 1.60 3.70 429582 AI569068 Hs.22247 ESTs 1.06 2.38 409134 AW340389 Hs.250585 ESTs 1.64 2.57 415642 U19878 Hs.336224 transmembrane protein with EGF-like and 0.73 2.33 435667 F13625 Hs.124183 ESTs 1.10 2.33 440513 BE407106 Hs.65907 Homo sapiens, clone IMAGE: 3959816, mRNA, 0.85 2.03 419711 C02621 Hs.159282 ESTs 1.22 2.00 434249 AA987537 Hs.129875 ESTs 1.29 2.48 437355 AL359557 Hs.306508 Homo sapiens mRNA; cDNA DKFZp762O1415 (f 1.86 2.08 428360 H10291 Hs.30974 ESTs 1.40 2.05 435339 AI358300 Hs.129827 ESTs 1.38 2.18 435345 AW360966 Hs.6653 ESTs 1.49 2.27 435105 AI878982 Hs.131859 Homo sapiens F-box protein FBX11 mRNA, p 1.78 2.33 459645 AA074346 Hs.250715 ESTs 1.50 2.40 449691 AA002143 Hs.21413 solute carrier family 12, (potassium-chl 0.74 0.69 425955 T96509 Hs.248549 ESTs, Moderately similar to S65657 alpha 1.42 2.76 437272 AW975957 gb: EST388066 MAGE resequences, MAGN Homo 1.00 2.16 456955 NM_006925 Hs.166975 splicing factor, arginine/serine-rich 5 0.84 0.81 421362 AK000050 Hs.103853 hypothetical protein FLJ20043 1.30 2.21 457926 AA452378 Hs.11637 Homo sapiens mRNA; cDNA DKFZp547J125 (fr 1.27 2.12 444557 AI167637 Hs.146924 ESTs 1.83 2.35 434476 AW858520 Hs.84264 acidic protein rich in leucines 1.43 3.80 458059 AW015588 Hs.137232 ESTs, Weakly similar to S65657 alpha-1C- 1.30 2.23 413595 AW235215 Hs.16145 ESTs 2.10 2.43 417281 R98773 Hs.268883 ESTs 1.26 2.10 445689 BE158869 gb: QV0-HT0398-210100-096-f08 HT0398 Homo 1.15 2.15 423249 AA323682 Hs.125374 ESTs, Weakly similar to S26689 hypotheti 1.76 1.50 408366 AW511255 Hs.346442 ESTs 1.74 2.91 441359 AI435179 Hs.126820 ESTs 2.43 1.59 413068 BE063792 gb: QV3-BT0295-260100-066-d06 BT0295 Homo 1.52 2.09 441322 AW071851 Hs.130628 ESTs 1.42 2.10 409124 AW292809 Hs.50727 N-acetylglucosaminidase, alpha- (Sanfili 1.11 2.20 432413 AK000257 Hs.274505 Homo sapiens mRNA; cDNA DKFZp564A216 (fr 1.10 2.25 425391 AI248252 Hs.160672 ESTs 1.17 2.38 443861 AW449462 Hs.134743 ESTs 1.44 2.30 454609 AW810204 gb: MR4-ST0125-021199-017-d08 ST0125 Homo 2.30 1.33 425893 AA629695 gb: ad43b07.s1 Stratagene lung carcinoma 1.76 2.51 443611 NM_014397 Hs.9625 NIMA (never in mitosis gene a)-related k 1.81 2.90 410359 R38624 Hs.106313 ESTs 1.78 2.05 406308 NM_025192: Homo sapiens hypothetical prot 1.92 2.24 432476 T94344 Hs.326263 ESTs 1.40 2.45 435073 AA664078 gb: ac04a05.s1 Stratagene lung (937210) H 1.66 2.26 420581 AA278459 Hs.151940 ESTs 1.48 2.58 435579 AI332373 Hs.156924 ESTs 1.46 2.68 439633 AF086464 Hs.86248 ESTs 1.40 2.48 430551 AA481150 Hs.136343 ESTs 1.40 2.28 450855 T97988 Hs.295605 mannosidase, alpha, class 2A, member 2 1.48 2.40 444326 AI939357 Hs.270710 ESTs 0.88 2.28 412149 R49355 Hs.273824 ESTs 1.58 2.19 455116 AW857271 gb: CM0-CT0307-210100-158-g09 CT0307 Homo 1.56 2.50 449626 AA774247 Hs.301637 zinc finger protein 258 0.60 0.53 410047 AI167810 Hs.132390 zinc finger protein 36 (KOX 18) 0.66 0.58 418865 AW117500 Hs.104241 ESTs 1.58 2.63 402762 ENSP00000235171*: GAP junction beta-4 pro 0.81 0.82 436449 AI418027 Hs.120361 ESTs 1.46 1.46 403488 ENSP00000201948: KARYOPHERIN BETA2B HOMOL 1.38 2.23 431235 AA318271 Hs.250905 hypothetical protein 1.14 2.55 448576 AB026730 Hs.21495 UDP-Gal: betaGlcNAc beta 1,3-galactosyltr 0.70 0.78 408100 AW205382 Hs.42676 KIAA0781 protein 1.36 2.66 433436 AW162474 Bruno (Drosophila)-like 6, RNA binding 1.50 2.15 422337 R38572 gb: yc87c11.s1 Soares infant brain 1NIB H 2.23 1.71 426160 AA206020 Hs.167460 splicing factor, arginine/serine-rich 3 1.08 2.09 447008 BE010189 nuclear receptor subfamily 1, group I, m 1.26 1.27 420141 AA702961 Hs.124103 ESTs, Weakly similar to I38344 titin, ca 1.46 2.60 423840 AA332434 Hs.72465 ESTs, Weakly similar to non-lens beta ga 1.26 2.47 447793 AI424924 Hs.211203 ESTs 2.38 1.83 407328 AA508857 Hs.187748 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.11 2.54 432451 AW972771 Hs.292471 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.63 2.05 421311 N71848 Hs.283609 hypothetical protein PRO2032 0.51 0.44 444649 AW207523 Hs.197628 ESTs 1.21 2.24 448688 R94570 Hs.266869 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.91 3.25 428847 AI954833 Hs.98881 ESTs 1.48 2.66 413750 BE161453 gb: IL2-HT0437-290200-045-A06 HT0437 Homo 1.22 1.00 429355 AW973253 Hs.292689 ESTs 1.86 2.35 427798 AA412499 Hs.104779 ESTs 1.82 2.33 431179 AI338644 Hs.195432 aldehyde dehydrogenase 2 family (mitocho 0.80 2.00 451719 AI373532 Hs.157910 ESTs 1.29 3.85 438094 AI821755 Hs.131805 ESTs, Weakly similar to A56194 thromboxa 1.74 2.54 418504 BE159718 Hs.85335 Homo sapiens mRNA; cDNA DKFZp564D1462 (f 0.52 0.49 467414 AF072164 gb: Homo sapiens HSFE-1 mRNA, partial cds 1.67 2.28 416410 H53777 Hs.36822 ESTs 1.85 2.28 439141 AI241470 Hs.268982 ESTs 1.08 2.28 441181 AA416925 Hs.121076 peptidylprolyl isomerase (cyclophilin)-l 1.81 2.02 434482 AF143331 Hs.16073 ESTs 1.22 2.00 455757 BE079531 gb: RC5-BT0624-240300-013-D08 BT0624 Homo 1.53 2.16 425787 AA363867 Hs.155029 ESTs 0.76 2.13 405727 CX001244: gi|11420428|ref|XP_004814.1|be 1.70 2.21 441846 AW850980 gb: IL3-CT0220-150200-068-B03 CT0220 Homo 1.16 2.14 451945 BE504055 Hs.211420 ESTs 0.84 2.73 438432 AW444990 Hs.258800 ESTs, Weakly similar to I38022 hypotheti 1.60 2.43 451140 AW411354 Hs.26002 LIM domain binding 1 1.14 1.20 407341 AA918886 Hs.204918 ESTs, Weakly similar to ALU8_HUMAN ALU S 1.03 2.42 453041 AI680737 Hs.289068 Homo sapiens cDNA FLJ11918 fis, clone HE 1.69 3.43 437613 R19892 Hs.10267 MIL1 protein 1.16 2.11 451507 AW291109 Hs.208787 ESTs, Weakly similar to T31611 hypotheti 1.22 2.05 430259 BE550182 Hs.127826 RaIGEF-like protein 3, mouse homolog 2.85 1.00 453669 AL049029 Hs.7258 hypothetical protein FLJ22021 0.75 0.64 455065 AW854352 gb: RC3-CT0255-200100-024-g10 CT0255 Homo 1.49 2.20 442220 AL037800 Hs.8148 selenoprotein T 0.50 0.18 437936 AW798475 Hs.288549 hypothetical protein FLJ14710 1.50 2.44 442556 AL137761 Hs.8379 Homo sapiens mRNA; cDNA DKFZp586L2424 (f 0.54 0.37 405223 Target Exon 1.09 2.80 437225 AW975982 Hs.292935 ESTs 1.03 2.47 421101 AF010446 Hs.101840 major histocompatibility complex, class 0.72 0.57 436200 R51386 Hs.124881 ESTs 1.64 2.93 402025 NM_021624: Homo sapiens histamine H4 rece 1.52 2.28 407019 U49973 gb: Human Tigger1 transposable element, c 2.40 2.12 451305 AW003571 Hs.211191 ESTs, Weakly similar to A46010 X-linked 1.24 3.23 423450 AJ290445 Hs.128759 KIAA0524 protein 1.64 2.13 423139 AW402725 Hs.288560 hypothetical protein FLJ21106 1.61 2.28 451763 AW294647 Hs.233634 hypothetical protein FLJ14220 1.39 2.08 458915 AI915689 Hs.212781 EST 1.62 2.02 452829 AI955579 Hs.63368 ESTs, Weakly similar to TRHY_HUMAN TRICH 0.60 0.41 446383 T05816 Hs.92511 ESTs 2.08 1.48 432576 AW157424 Hs.165954 ESTs, Weakly similar to I38022 hypotheti 1.88 2.49 433820 AI401627 Hs.174067 ESTs 1.30 2.00 419719 AA844700 Hs.39297 ESTs, Moderately similar to ALU1_HUMAN A 1.33 2.00 415868 H06728 Hs.21017 ESTs 1.34 2.08 420738 NM_004185 Hs.258575 wingless-type MMTV integration site fami 1.42 2.29 446614 AK001733 Hs.15562 hypothetical protein FLJ10871 0.79 0.78 404167 NM_021956*: Homo sapiens glutamate recept 1.62 2.55 417074 Z49878 Hs.81131 guanidinoacetate N-methyltransferase 0.72 0.75 401215 C12000457*: gi|7512178|pir∥T30337 polypr 1.14 2.08 421600 AW893889 Hs.323231 Homo sapiens cDNA FLJ11946 fis, clone HE 1.88 2.66 426248 T18988 Hs.293668 ESTs 1.17 3.44 454523 AW803980 gb: PM0-UM0084-240300-001-G11 UM0084 Homo 1.34 2.40 420656 AA279098 Hs.187636 ESTs 1.22 2.43 402833 C1002508: gi|6691937|emb|CAB65797.1|(AL0 1.31 2.00 438910 AA827921 Hs.291858 ESTs, Weakly similar to ALUC_HUMAN !!!! 1.39 3.13 416170 H42454 Hs.220645 ESTs 0.99 2.18 433598 AI762836 Hs.271433 ESTs, Moderately similar to ALU2_HUMAN A 2.04 1.28 417699 T91491 Hs.119670 ESTs 1.36 2.50 459605 AL045773 gb: DKFZp434F246_r1 434 (synonym: htes3) 1.21 2.13 453204 R10799 Hs.191990 ESTs 3.12 2.98 458971 AL119206 Hs.126257 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.34 2.09 457040 N77624 Hs.173717 phosphatidic acid phosphatase type 2B 1.68 2.00 400414 AF083118 Hs.283968 Homo sapiens CATX-2 mRNA, complete cds 1.70 2.54 426263 AI908774 Hs.259785 carnitine palmitoyltransferase I, liver 0.96 2.14 439334 AI148976 Hs.112062 ESTs 1.50 2.45 455527 AW984479 gb: PM1-HN0012-220300-001-b12 HN0012 Homo 1.46 2.28 408084 AL040832 Hs.160422 Homo sapiens clone PP902 unknown mRNA 1.61 2.23 432059 AF227131 Hs.272387 taste receptor, type 2, member 4 1.66 2.15 429791 AW015667 Hs.119427 ESTs 1.51 2.83 438695 AI885190 Hs.156089 ESTs, Weakly similar to repressor protei 1.19 2.03 458139 AI525711 Hs.253147 ESTs 1.42 2.10 413035 BE155563 gb: PM4-HT0352-171199-001-C05 HT0352 Homo 1.62 2.30 422444 AA310688 gb: EST181501 Jurkat T-cells V Homo sapie 1.38 2.05 409546 AW410190 Hs.250624 hypothetical protein MGC4473 1.87 2.18 411432 AW846272 gb: QV0-CT0179-300999-024-d12 CT0179 Homo 1.04 2.03 445327 AI220082 Hs.147722 ESTs 1.16 2.10 424628 AB011136 Hs.151385 KlAA0564 protein 0.61 0.63 440197 AW340708 Hs.317714 pallid (mouse) homolog, pallidin 0.56 0.39 409894 BE081731 gb: QV2-BT0635-220400-158-e04 BT0635 Homo 1.50 2.45 422776 AA316987 Hs.129846 ESTs 1.36 2.20 428255 AI627478 Hs.187670 ESTs 1.34 2.40 412484 AA112090 Hs.269961 ESTs 0.97 2.00 432789 D26361 Hs.3104 KIAA0042 gene product 1.44 2.73 430100 AA766178 Hs.291601 ESTs, Highly similar to T00350 hypotheti 1.06 2.02 419528 AA244000 Hs.222365 ESTs 1.34 2.06 441793 AA968459 Hs.158785 ESTs 1.80 2.70 429468 AF033579 T-box 10 0.71 0.61 410248 AA166653 Hs.268171 ESTs 2.55 2.10 401818 NM_000664*: Homo sapiens acetyl-Coenzyme 1.76 2.58 451724 AI903765 gb: UI-BT037-301298-102 BT037 Homo sapien 1.64 2.28 431866 NM_012098 Hs.8025 angiopoietin-like 2 1.56 2.36 432719 AW935411 Hs.314460 ESTs 1.36 2.25 418977 AA233094 Hs.191517 ESTs 2.06 3.60 404220 C6000989*: gi|7573285|emb|CAB87644.1| (AL 1.54 2.23 446708 BE549905 Hs.231754 ESTs 1.35 2.16 453823 AL137967 gb: DKFZp761D2315_r1 761 (synonym: hamy2) 1.42 2.38 422050 AA302741 Hs.25786 ESTs, Moderately similar to JC5238 galac 1.40 2.50 400704 Target Exon 1.48 1.00 406104 Target Exon 1.22 2.03 411008 AW813238 gb: MR3-ST0191-020200-207-d04 ST0191 Homo 1.00 2.13 426582 AA381797 Hs.281121 ESTs 1.35 2.45 430853 AI734179 Hs.105676 ESTs 1.43 2.23 432420 AL044659 Hs.43791 ESTs 1.15 2.03 403197 C2002793*: gi|1353148|sp|Q09568|YR86_CAEE 0.52 0.47 432407 AA221036 gb: zr03f12.r1 Stratagene NT2 neuronal pr 1.93 2.23 414996 AW747800 Hs.55016 hypothetical protein FLJ21935 1.56 2.72 401016 ENSP00000227126: NAALADASE II PROTEIN. 1.25 2.45 433335 AA584134 Hs.269454 ESTs 1.31 2.24 459668 BE244127 gb: TCBAP1E0661 Pediatric pro-B cell acut 1.16 2.03 437722 AW292947 Hs.122872 ESTs, Weakly similar to JU0033 hypotheti 3.75 2.72 452277 AL049013 Hs.28783 KIAA1223 protein 0.33 0.26 425712 AA412548 Hs.21423 ESTs, Moderately similar to ALU1_HUMAN A 1.34 2.21 427598 AA406057 Hs.97998 ESTs 1.06 2.05 412565 M85975 Hs.344069 gb: EST02500 Fetal brain, Stratagene (cat 1.24 2.59 422043 AL133649 Hs.110953 retinoic acid induced 1 0.48 0.41 421814 L12350 Hs.108623 thrombospondin 2 0.48 2.45 413645 AA130992 gb: zo15e02.s1 Stratagene colon (937204) 1.32 2.45 435563 AF210317 Hs.95497 solute carrier family 2 (facilitated glu 0.39 0.28 452396 H10302 Hs.112577 ESTs 1.60 2.45 440612 BE561384 gb: 601344969F1 NIH_MGC_8 Homo sapiens cD 1.08 2.60 454721 AW815588 gb: QV0-ST0216-061299-066-a09 ST0216 Homo 1.44 1.65 417796 AA206141 Hs.6786 ESTs 1.68 3.85 432864 D16217 Hs.279607 calpastatin 0.43 0.35 454480 AA088375 Hs.22612 hypothetical protein DKFZp566D1346 2.19 1.91 434490 AF143870 Hs.15246 ESTs 2.26 2.07 418797 AA515814 gb: ng64b03.s1 NCI_CGAP_Lip2 Homo sapiens 1.42 2.55 403871 C5001783*: gi|780367|gb|AAB05844.1| (L416 1.60 2.63 441283 AA927670 Hs.131704 ESTs 1.31 3.63 442250 AW290871 Hs.129121 ESTs 1.14 2.38 456747 AL037357 Hs.125864 tropomodulin 2 (neuronal) 1.61 1.26 425757 AA363171 gb: EST72986 Ovary II Homo sapiens cDNA 5 1.29 2.95 405494 C2001837*: gi|12697903|dbj|BAB21770.1|(A 2.09 1.00 432250 AA452088 Hs.274170 Opa-interacting protein 2 1.26 2.71 431911 AK000156 Hs.272193 Homo sapiens cDNA FLJ20149 fis, clone CO 1.46 2.60 413923 AI733852 Hs.199957 ESTs 1.62 2.10 449590 AA694070 Hs.268835 ESTs 1.20 2.53 438467 AA808027 Hs.123277 ESTs 1.48 2.10 432121 AI824879 Hs.211286 ESTs, Weakly similar to 1207289A reverse 1.27 3.13 412298 AW936300 gb: QV4-DT0021-281299-070-a04 DT0021 Homo 1.42 2.60 408519 AA679082 Hs.43481 hypothetical protein DKFZp564K192 1.84 3.70 416067 T79732 Hs.14633 ESTs 1.11 3.08 420497 AW206285 Hs.253548 ESTs 1.90 2.48 405704 NM_001844*: Homo sapiens collagen, type I 1.42 2.90 423443 AI432601 Hs.168812 Homo sapiens cDNA FLJ14132 fis, clone MA 1.42 2.03 415904 Z44679 Hs.336391 ESTs 1.62 2.94 413786 AW613780 Hs.13500 ESTs 0.33 0.17 404031 C5001700*: gi|9256616|ref|NP_061761.1|pr 1.94 2.29 457412 N40711 Hs.333300 hypothetical protein FLJ14026 1.92 3.20 439719 AF086554 Hs.326048 Homo sapiens mRNA; cDNA DKFZp434M0420 (f 1.62 2.30 418161 AI950754 Hs.81716 ESTs 1.81 2.42 425894 AW954011 Hs.180711 ESTs 0.92 2.20 419988 W39388 Hs.55336 Homo sapiens, clone MGC: 17421, mRNA, com 1.34 2.57 439668 AI091277 Hs.302634 frizzled (Drosophila) homolog 8 1.67 2.66 450177 AI698091 Hs.107845 ESTs 1.50 2.25 459704 AA719572 Hs.274441 Homo sapiens mRNA; cDNA DKFZp434N011 (fr 1.27 3.35 410357 AW663614 gb: hj22e04.x1 NCI_CGAP_Li8 Homo sapiens 0.69 0.59 459234 AI940425 gb: CM0-CT0052-150799-024-c04 CT0052 Homo 1.67 2.08 421313 NM_014923 Hs.103329 KIAA0970 protein 0.57 0.26 431322 AW970622 gb: EST382704 MAGE resequences, MAGK Homo 1.80 2.73 423086 AB028984 Hs.123420 KIAA1061 protein 0.40 0.56 425980 AA366951 gb: EST77963 Pancreas tumor III Homo sapi 1.33 2.50 423185 BE299590 Hs.125078 ornithine decarboxylase antizyme 1 0.60 0.56 410840 AW806924 gb: QV4-ST0023-160400-172-h10 ST0023 Homo 1.50 2.88 403917 Target Exon 1.82 2.02 437384 AI674710 Hs.174397 ESTs 1.26 2.05 444389 AW439340 Hs.189720 ESTs 1.26 2.13 443318 AI051603 Hs.133141 ESTs 1.46 2.20 441093 AI698138 Hs.126918 ESTs 1.40 2.35 439432 AI984203 Hs.57874 ESTs 0.88 2.18 454629 AW811114 gb: MR2-ST0131-111199-016-a04 ST0131 Homo 1.96 2.31 406207 Target Exon 2.77 2.55 444872 AI936264 p30 DBC protein 1.48 2.45 401908 C17000154: gi|12003980|gb|AAG43830.1|AF21 1.15 2.28 404730 Target Exon 1.84 2.78 457498 AI732230 Hs.191737 ESTs 1.49 2.55 448471 AA158617 Hs.21276 collagen, type IV, alpha 3 (Goodpasture 0.37 0.36 438978 AI095207 Hs.307972 ESTs 1.57 2.39 418786 AI796317 Hs.203594 Homo sapiens uncharacterized gastric pro 2.86 3.34 400416 AF083130 Homo sapiens CATX-14 mRNA, partial cds 2.03 1.55 450446 AI696334 Hs.14450 ESTs 1.32 2.38 419791 AI579909 Hs.105104 ESTs 0.41 0.27 449436 AA860329 Hs.279307 hypothetical protein DKFZp434I2117 2.01 1.50 430808 L08603 Hs.247980 melanocortin 4 receptor 1.09 2.18 443116 AI033397 Hs.132225 ESTs 1.30 2.25 437923 BE088433 Hs.334696 hypothetical protein KIAA1335 1.40 2.50 403294 Target Exon 0.98 2.18 436007 AI247716 Hs.232168 ESTs 1.38 1.00 430649 AB040941 Hs.247713 KIAA1508 protein 1.52 2.85 437271 AL137445 Hs.28846 Homo sapiens mRNA; cDNA DKFZp566O134 (fr 1.29 2.59 444500 AV651273 Hs.282966 ESTs, Moderately similar to 2109260A B c 1.22 2.05 447434 R16890 Hs.137135 ESTs 1.72 2.85 400830 NM_025006: Homo sapiens hypothetical prot 2.04 2.68 428114 AI821548 Hs.98363 ESTs, Weakly similar to I38022 hypotheti 1.09 2.74 409688 AI150485 gb: qf36a10.x1 Soares_testis_NHT Homo sap 1.67 1.38 440781 BE561823 Hs.281434 Homo sapiens cDNA FLJ14028 fis, clone HE 1.28 2.50 442662 U78168 Hs.8578 Rap 1 guanine-nucleotide-exchange factor 1.92 2.28 443078 M78728 Hs.132694 Homo sapiens cDNA: FLJ23149 fis, clone L 1.42 2.03 440179 AI990151 Hs.125904 ESTs 1.49 2.63 446780 R31107 gb: yh61g01.s1 Soares placenta Nb2HP Homo 1.96 2.78 444173 AI126432 Hs.149493 ESTs 1.50 2.10 417939 R53863 Hs.337512 ESTs, Weakly similar to ALUB_HUMAN !!!! 1.60 2.03 428490 BE301738 Hs.49806 ESTs, Weakly similar to A46010 X-linked 0.47 0.44 443869 AI141520 Hs.151464 ESTs, Weakly similar to ALUC_HUMAN !!!! 1.25 2.68 426322 J05068 Hs.2012 transcobalamin I (vitamin B12 binding pr 2.12 1.15 411630 U42349 Hs.71119 Putative prostate cancer tumor suppresso 0.64 0.48 454701 AW854930 gb: PM0-CT0263-201099-003-f06 CT0263 Homo 1.30 2.33 439795 N77294 Hs.194294 ESTs 1.17 2.33 425546 BE409762 Hs.26118 hypothetical protein MGC13033 1.17 2.85 411245 AW833441 gb: QV4-TT0008-271099-020-g01 TT0008 Homo 1.90 3.98 434957 AF283775 Hs.35380 x 001 protein 0.47 0.41 425724 AA362525 gb: EST72223 Namalwa B cells I Homo sapie 1.38 2.63 446847 T51454 Hs.82845 Homo sapiens cDNA: FLJ21930 fis, clone H 0.34 0.28 453216 AL137566 Hs.32405 Homo sapiens mRNA; cDNA DKFZp586G0321 (f 1.28 2.19 421718 AL117574 Homo sapiens mRNA; cDNA DKFZp434L2221 (f 2.04 1.79 415924 H18047 Hs.335821 ESTs 2.02 3.17 450850 AA648886 Hs.151999 ESTs 1.68 2.45 443153 AI371823 Hs.34079 ESTs 1.13 2.41 434420 AA688278 Hs.194864 hypothetical protein FLJ22578 1.34 2.38 426126 AL118747 Hs.26691 ESTs 1.31 2.25 421926 AA300591 gb: EST13437 Testis tumor Homo sapiens cD 1.48 2.40 459563 AI590487 Hs.49760 gb: tt77d04.x1 NCI_CGAP_HSC3 Homo sapiens 1.74 3.33 453006 AI362575 Hs.303171 ESTs 1.17 2.24 437223 C15105 Hs.330716 Homo sapiens cDNA FLJ14368 fis, clone HE 0.54 0.46 417016 AA837098 Hs.269933 ESTs 1.04 2.18 420223 N27807 Hs.286 ribosomal protein L4 2.08 3.10 425303 AA354785 gb: EST63098 Jurkat T-cells V Homo sapien 2.18 2.85 400375 NM_014115 NM_014115*: Homo sapiens PRO0113 protein 1.83 2.14 456169 Y07909 Hs.79368 epithelial membrane protein 1 1.54 2.08 409707 AA861773 Hs.313501 ESTs 0.79 0.84 422241 Y00062 Hs.170121 protein tyrosine phosphatase, receptor t 1.46 2.06 443152 AI803470 Hs.204529 KIAA1806 protein 1.07 2.43 452714 AW770994 Hs.30340 hypothetical protein KIAA1165 0.45 0.34 415110 H04043 gb: yj45c03.r1 Soares placenta Nb2HP Homo 1.62 2.07 443251 BE185436 Hs.278839 ESTs 1.34 2.05 433441 R37094 Hs.13742 ESTs 1.76 2.05 434612 R76513 Hs.301183 molecule possessing ankyrin repeats indu 0.83 2.88 417807 R17806 Hs.269452 gb: yg09b06.r1 Soares infant brain 1NIB H 1.30 2.23 426902 AI125334 Hs.97408 ESTs 1.94 2.20 436028 AA731124 Hs.120931 ESTs 2.01 1.73 428878 AA436884 Hs.48926 ESTs 1.22 2.17 439749 AL389942 Hs.157752 Homo sapiens mRNA full length insert cDN 1.32 2.75 442435 AI986208 Hs.244760 ESTs, Highly similar to B34087 hypotheti 2.09 3.13 416527 T62507 Hs.11038 ESTs 1.66 2.12 441808 AW118601 Hs.127887 ESTs, Moderately similar to 1609195B blo 1.22 2.58 417054 AF017060 Hs.174151 aldehyde oxidase 1 2.57 1.48 446636 AC002563 Hs.15767 citron (rho-interacting, serine/threonin 1.16 2.23 418442 AI873471 Hs.186898 ESTs 1.39 2.26 416640 BE262478 Hs.79404 neuron-specific protein 0.31 0.26 403146 Target Exon 1.49 2.18 457397 AW969025 Hs.109154 ESTs 1.32 2.26 439189 AI951185 Hs.144630 nuclear receptor subfamily 2, group F, m 1.76 2.90 423969 AI830571 Hs.34969 hypothetical protein DKFZp566N034 1.18 2.00 459683 AI674906 Hs.199460 gb: wc73f02.x1 NCI_CGAP_Pan1 Homo sapiens 1.74 2.00 426826 AK001890 Hs.172654 guanine nucleotide binding protein beta 2.04 1.60 414462 BE622743 Hs.301064 arfaptin 1 0.40 0.29 438027 N93047 Hs.19131 transcription factor Dp-2 (E2F dimerizat 1.08 2.40 408623 AW811978 Hs.254037 ESTs 1.64 3.08 433765 AA909619 Hs.112668 ESTs 1.52 2.02 417132 N56605 Hs.269053 ESTs 1.64 2.51 416815 U41514 Hs.80120 UDP-N-acetyl-alpha-D-galactosamine: polyp 0.28 0.16 435186 AL119470 Hs.145631 ESTs 1.74 3.10 411107 AW958042 Hs.95870 PTD015 protein 0.49 0.24 406930 U04691 gb: Human olfactory receptor (OR17-219) g 2.21 3.88 411026 AW813786 gb: RC3-ST0197-120200-015-b05 ST0197 Homo 1.64 1.03 415766 H01613 Hs.50628 adaptor-related protein complex 4, sigma 1.64 2.51 446018 AW631111 Hs.249727 gb: hh92e12.y1 NCI_CGAP_GU1 Homo sapiens 1.56 2.48 440125 AW238410 Hs.253888 ESTs 1.46 2.25 449832 AA694264 Hs.60049 ESTs 1.27 2.33 431899 AA521381 Hs.187726 ESTs 1.11 2.53 431531 BE142052 Hs.62654 kringle-containing transmembrane protein 1.06 2.00 441077 AI241273 Hs.15312 ESTs 1.12 2.13 426799 H14843 Hs.303154 popeye protein 3 0.61 0.51 419480 BE536584 Hs.122546 hypothetical protein FLJ23017 1.88 2.38 455908 BE156306 gb: QV0-HT0367-150200-114-h04 HT0367 Homo 1.77 2.55 403332 Target Exon 1.46 2.60 455753 BE075124 gb: PM1-BT0585-110200-003-h02 BT0585 Homo 1.40 2.43 404429 Target Exon 1.31 2.01 438941 AF075047 Hs.31864 ESTs 1.34 2.21 428745 AA433896 Hs.201634 ESTs 1.72 2.06 411567 AW851630 gb: MR2-CT0222-211099-002-h06 CT0222 Homo 1.60 2.70 458714 R20916 Hs.344777 ESTs 0.93 2.07 426839 M74782 Hs.172689 interleukin 3 receptor, alpha (low affin 1.39 2.71 444539 AI955765 Hs.146907 ESTs, Weakly similar to 2004399A chromos 1.66 2.18 407322 AA171892 Hs.324570 ESTs, Weakly similar to ALU3_HUMAN ALU S 1.30 2.65 453826 AL138129 gb: DKFZp547F152_r1 547 (synonym: hfbr1) 1.52 2.73 435695 AA694324 Hs.257675 ESTs 1.24 2.00 402294 Target Exon 1.80 3.08 417759 R13567 Hs.12548 ESTs 1.63 2.58 417527 AA203524 gb: zx56e10.r1 Soares_fetal_liver_spleen_(—) 1.52 2.02 427526 AA405062 Hs.345830 gb: zu12e04.r1 Soares_testis_NHT Homo sap 2.03 1.90 455300 AW891707 gb: CM3-NT0090-040500-171-e02 NT0090 Homo 1.12 2.20 448121 AL045714 Hs.128653 hypothetical protein DKFZp564F013 0.93 2.28 415855 AI921875 gb: wp07e04.x1 NCI_CGAP_Kid12 Homo sapien 1.43 2.08 425702 N59555 gb: yv76f05.s1 Soares fetal liver spleen 1.61 2.80 441056 H37860 Hs.125720 ESTs 1.11 2.10 400311 AF072164 Hs.137570 Homo sapiens HSFE-1 mRNA, partial cds 2.04 2.95 451478 NM_012331 Hs.26458 methionine sulfoxide reductase A 0.50 0.20 425288 AA354502 gb: EST62799 Jurkat T-cells V Homo sapien 0.99 2.08 456397 W28339 Hs.150580 PTD010 protein 1.11 2.29 405654 C12001521: gi|7513934|pir∥T31081 cca3 pr 2.30 1.00 450151 AI088196 Hs.22968 Homo sapiens clone IMAGE: 451939, mRNA se 1.21 2.60 419851 AA287987 Hs.13477 ESTs, Weakly similar to 1207289A reverse 1.26 2.60 406016 Target Exon 0.57 0.48 440903 AI468079 Hs.126623 ESTs 2.02 1.61 445026 W90337 Hs.282966 ESTs, Moderately similar to 2109260A B c 1.56 2.23 414182 AA136301 Hs.344442 KIAA1105 protein 1.32 2.55 457048 AA400352 Hs.112861 ESTs 1.54 2.05 440542 AA889143 Hs.295655 ESTs, Weakly similar to PC4259 ferritin 1.48 2.15 422857 R71461 gb: yi51h07.r1 Soares placenta Nb2HP Homo 1.42 2.78 445948 AW444662 Hs.202247 ESTs 1.50 2.48 454002 BE299567 Hs.271749 ESTs, Moderately similar to ALU8_HUMAN A 1.31 2.25 413656 T91703 gb: ye20g09.s1 Stratagene lung (937210) H 2.10 1.69 420441 AI986160 Hs.180383 dual specificity phosphatase 6 0.99 2.33 412062 H09124 Hs.202341 Homo sapiens cDNA: FLJ23573 fis, clone L 2.14 1.61 408991 BE501816 Hs.281927 ESTs 1.76 2.83 432534 AW361626 Hs.339833 hypothetical protein FLJ11240 0.41 0.28 435136 R27299 Hs.10172 ESTs 0.76 3.40 451052 AA281504 Hs.24444 Homo sapiens cDNA: FLJ22165 fis, clone H 2.16 1.85 413928 AA442498 Hs.6700 ESTs, Moderately similar to Z195_HUMAN Z 1.30 2.00 439448 AA970788 Hs.257586 ESTs 1.87 2.23 403344 NM_000341: Homo sapiens solute carrier fa 1.36 2.22 418056 AA524886 gb: nh34f02.s1 NCI_CGAP_Pr3 Homo sapiens 1.42 2.85 435428 AI791746 Hs.130293 ESTs 2.44 1.32 419964 AA811657 Hs.220913 ESTs 1.32 2.08 440926 AW196772 Hs.131323 ESTs 1.80 2.65 452625 AA724771 Hs.61425 ESTs 1.64 2.18 452797 AI369787 Hs.7146 ESTs 1.47 3.16 436120 AI248193 Hs.119860 ESTs 1.41 2.83 449567 AI990790 Hs.188614 ESTs 1.48 2.45 409628 AB021865 Hs.55276 potassium voltage-gated channel, Shal-re 1.70 2.23 416617 H69311 Hs.205980 ESTs 1.83 2.04 452266 AI767250 Hs.165240 ESTs 0.58 0.43 404606 Target Exon 1.47 3.75 401814 Target Exon 2.00 1.91 428403 AI393048 Hs.326159 leucine rich repeat (in FLII) interactin 0.33 0.21 433390 AA586950 Hs.260180 Homo sapiens mRNA; cDNA DKFZp761G18121 ( 2.00 4.90 451443 AW295527 Hs.210303 ESTs 1.87 2.25 411188 BE161168 gb: PM0-HT0425-170100-002-a10 HT0425 Homo 2.15 1.69 452704 AA027823 Hs.149424 Homo sapiens PNAS-130 mRNA, complete cds 2.64 1.65 424060 X92108 H. sapiens mRNA for subtelomeric repeat s 2.40 2.58 433331 AI738815 Hs.117323 ESTs 1.46 2.10 428520 AA331901 Hs.184736 hypothetical protein FLJ10097 0.44 0.19 439492 AF086310 Hs.103159 ESTs 0.42 0.26 426736 AA431615 Hs.130722 ESTs 1.90 2.45 416225 AA577730 Hs.188684 ESTs, Weakly similar to PC4259 ferritin 2.72 6.25 404917 Target Exon 1.60 2.15 448955 AW207597 Hs.28102 ESTs 2.08 1.75 402797 Target Exon 2.12 1.37 457951 U23860 gb: Human clone mcag19 chromosome 16 CTG 1.72 2.00 426982 AA149707 Hs.173091 ubiquitin-like 3 0.36 0.17

[0383] TABLE 8B Pkey CAT Number Accession 408139 10421_1 AA451966 NM_016370 AB036693 AL139228 R58124 AI634847 AL119333 W07356 AI334284 H29050 AI192685 AA652438 AW172843 W19794 N21460 AI743862 AW130622 AA991348 AI204553 AA992664 N80848 AA699329 AI824676 R26624 R49653 408255 1049351_1 AW807321 AW807262 AW177104 AW807319 AW807115 AW807344 AW807324 AW178116 BE141575 AW845849 AW807105 AW845868 BE140942 AW807178 AW807167 AW807398 AW807320 AW807306 AW845866 408283 1050275_1 BE141579 AW807555 AW807502 BE141596 AW845845 AW807500 AW845864 AW807480 AW807486 AW807478 AW178109 AW807228 AW807374 AW807125 AW846124 AW807470 AW807477 AW807510 AW807208 BE141573 AW807465 408839 1085657_1 AW277084 R27662 R26970 D79194 409126 110159_1 AA063426 AW962323 AW408063 AA063503 AA772927 AW753492 BE175371 AA311147 409282 111512_1 AW966480 AA069840 AA384646 409291 1115745_1 AW373472 AW373484 BE071899 BE071898 409367 1123651_1 AW382767 BE153835 BE153702 BE153572 409688 114831_3 AI150485 AW938392 AA076894 AW883422 409692 114869_1 AI500724 AA399661 AA397891 AI471084 AI423511 T07531 AI094336 409894 1157906_1 BE081731 AW861738 AW503629 BE081969 410154 117950_1 F06959 Z43559 AA082002 410357 1197159_1 AW663614 BE046540 BE045760 AW827443 BE046544 410642 1213736_1 AW792784 Z44444 H06639 410725 1218207_1 AW799279 AW799395 AW799392 AW799276 AW799479 H57885 410730 121847_1 AW368860 AA457091 AI903441 AA088823 W88852 AW979154 AA826016 R94779 410744 1219485_1 H86002 W92289 AW801558 AW801324 AW801270 AW801307 AW801351 AW801357 AW801299 AW801609 AW801356 AW801420 AW801425 AW801358 AW801429 AW801428 AW801427 AW801424 AW801306 410840 1223800_1 AW806924 AW866537 AW866473 AW866298 AW866390 AW866478 AW866454 AW866309 AW866539 AW866521 AW866547 AW866517 AW866403 AW866369 410956 1227882_1 AW938322 AW938307 AW938320 AW938323 AW811840 411008 1229027_1 AW813238 AW813474 AW813334 AW816081 AW813296 AW813363 AW813397 AW813327 AW813328 AW816031 AW816140 411026 1229373_1 AW813786 411141 1233793_1 AW819561 AW819682 AW819563 AW819688 AW819499 AW819498 AW819690 BE065081 411184 1234977_1 AW821117 AW855541 AW855405 AW855374 411188 1235093_1 BE161168 BE162466 AW821260 411245 1236412_1 AW833441 AW833552 AW833700 AW833610 AW833673 AW833675 411347 1239834_1 AW838126 AW838294 AW838247 AW838251 AW838292 AW838299 AW838374 411432 1245636_1 AW846272 AW846564 AW846545 AW846285 AW846135 AW846317 AW846200 AW846265 AW846326 AW846196 AW846357 AW846153 AW846286 AW846319 AW846277 AW846381 AW846438 AW846481 AW846352 411496 1248073_1 AW849241 AW849569 AW849243 411567 1249774_1 AW851630 AW851703 AW851735 AW851723 AW851708 AW851712 411590 125064_1 T96183 T64070 AA094134 411608 1251259_1 AW853441 BE145228 BE145218 BE145162 BE145283 411652 1252836_1 AW855393 AW855560 AW855424 411880 1263110_1 AW872477 BE088101 T05990 411918 1265807_1 AW876354 AW876179 AW876318 AW876290 AW876234 AW876125 AW876199 AW876198 411920 1265812_1 AW876263 AW876257 AW876261 AW876273 AW876231 AW876398 AW876334 AW876134 AW876371 AW876308 AW876314 AW876328 AW876169 AW876331 AW876426 AW876407 AW876412 AW876322 AW876363 AW876218 AW876240 AW876141 AW876138 AW876326 AW876181 AW876131 AW876378 AW876206 AW876191 AW876188 AW876376 AW876289 AW876415 AW876209 AW876366 AW876343 AW876347 AW876165 412085 1276467_1 AW891667 H93096 412252 1285293_1 AW903782 AW903668 AW903672 AW903763 AW903784 412274 128647_1 AA101443 R20332 F07484 412298 1288098_1 AW936300 AW936538 AW936386 412302 1288128_1 AW936334 AW936371 AW936474 412679 1321229_1 BE144762 AW979091 412902 1335166_1 BE008018 BE008025 BE008026 BE007959 BE007994 BE008016 8E008019 BE008024 BE008022 BE008027 BE008029 BE008020 BE008015 BE008021 BE008028 BE008023 BE008030 BE008014 413035 1346295_1 BE155563 BE155574 BE155556 BE061294 413068 1348104_1 BE063792 BE063803 BE063775 BE063801 BE063809 BE063777 BE063784 BE063808 BE066125 BE063782 BE063805 BE063812 413196 135322_1 AA127386 R15644 AA127404 413346 136323_1 AA128586 AA463667 AA235203 413444 1370831_1 BE141019 BE141473 BE141529 413489 1373392_1 BE144228 BE144291 413593 137891_1 AA205248 AA130658 AA204737 413645 138145_1 AA130992 AA503835 AW969537 413656 1381628_1 T91703 BE155222 BE155240 BE155274 BE155275 T92469 413750 1386250_1 BE161453 W28808 413885 1397288_1 BE177442 BE177439 BE177445 BE177440 BE177448 BE177444 BE177433 413888 139750_1 AA580288 AA315655 AA133031 AA377748 414051 1413185_1 BE244127 BE246216 414623 1466952_1 BE391050 BE389191 BE389697 415054 151827_1 AI733907 AA159708 AI732614 415110 1522905_1 H04043 D60988 D60337 415157 1525616_1 D63257 D78918 D63214 415361 1534970_1 F06724 Z43690 R21681 415378 1535274_1 T16964 F07075 H10256 415449 1537026_1 H15034 T17195 F09069 415770 155437_1 M79237 AI267298 AA169260 415806 155668_1 AA169560 AA169840 415855 155930_1 AI921875 AA170835 AA866613 415989 156454_1 AI267700 AI720344 AA191424 AI023543 AI469633 AA172056 AW958465 AA172236 AW953397 AA355086 416311 158797_1 D80529 D81719 C14833 AA179446 AA357794 416463 1595999_1 H59241 H57540 R00795 417086 164830_1 AA194446 AA194603 AA193162 AA196396 Z24810 417117 1651230_1 N46778 W86339 N75221 417324 166714_1 AW265494 AA455904 AA195677 AW265432 AW991605 AA456370 417527 168576_1 AA203524 W88451 417670 1692163_1 R07785 T85948 T86972 417882 1705458_1 R22311 R23982 R23997 417890 1706141_1 R79048 R23111 418056 171841_1 AA524886 AW971347 AA211537 418797 179095_1 AA515814 AA515037 AA230024 AA228343 418859 179717_1 AA229558 AA345492 AA229582 419145 182217_1 N99638 AW973750 AA328271 H90994 AA558020 AA234435 N59599 R94815 419386 184356_1 AA236867 AA237066 AA354236 AW957759 H08961 419501 185354_1 AW843822 AW844020 AA825923 AW968657 AW854173 BE084673 421338 201378_1 AA287443 AA419385 BE084078 AI478347 421582 2041_1 AI910275 X00474 X52003 X05030 NM_003225 AA314326 AA308400 AA506787 AA314825 AI571948 AA507595 AA614579 AA587613 R83818 AA568312 AA614409 AA307578 AI925552 AW950155 AI910083 M12075 BE074052 AW004668 AA578674 AA582084 BE074053 BE074126 BE074140 AA514776 AA588034 BE074051 BE074068 AW009769 AW050690 AA858276 R55389 AI001051 AW050700 AW750216 AA614539 BE074045 AI307407 AW602303 BE073575 AI202532 AA524242 AI970839 AI909751 BE076078 AI909749 R55292 421718 20595_1 AL117574 AI681945 BE503055 AW015330 C16652 AA441855 AA329853 AW962502 AA441830 AF114049 421926 209246_1 AA300591 AW963893 AA300493 422259 214322_1 AA307584 AW795791 AW795790 422297 214851_1 AW961290 AA308338 R60841 BE378716 R13001 422337 215447_1 R38572 R49597 H51730 F10468 AA309198 BE011889 AA613236 422444 216595_1 AA310688 AA355321 AW962134 422857 222190_1 R71461 AA328744 AA318128 BE081817 BE081587 BE081751 422936 223099_1 AA319278 AA319712 AW961504 AW954956 422940 223106_1 BE077458 AA337277 AA319285 422959 22327_3 AV647015 AV647162 AA477047 AW392066 BE168052 AA657684 AL040747 AL043589 AL041618 W24630 AA419002 AA778650 AI028269 AW378085 AW780241 AI984255 AW129462 AI271476 AL040967 AA836991 AL040910 AW273346 AA132452 AI375545 AI436321 N53166 AA598667 AA423804 AA889495 AI954063 AI923968 AW194576 AI400578 AA748499 AA860230 AW519209 AA339537 AA476935 AA767391 AI017695 AI860419 N93437 AW452389 AI051533 AA806940 AA609569 AI624860 AI356952 AI811516 AI439198 AA749268 AI206880 AI784422 AI431957 AI187038 AI678429 AI273421 AI358604 AI691155 AA586499 AA897667 AA524576 AI417772 AW799936 BE241923 AA013428 BE164987 AW602710 AI933540 AA757772 AW015132 AI954159 AW956377 W69468 AI807580 AI871746 AI922524 N80292 AI676213 BE467086 N92405 AV656311 AI678172 AW339455 AI949278 AI872882 AI123785 AA016267 AI961623 AW168519 F28686 F37181 AA908333 AW020788 AW374027 423074 22470_1 AL109963 AA134692 BE273642 M78295 AI825179 AA228029 BE538677 AW589948 AW241564 AA732224 AA228030 AW977225 423622 230333_1 BE154847 BE154890 AA328702 423736 231511_1 AW936874 AW936923 AW936924 AA330274 423977 233868_1 AA333232 AW962695 R54896 424060 23490_1 X92108 AW295478 AI768675 AI086644 AW190160 AA313783 AA322741 AA354698 AW962099 AL044667 AA282648 AA973897 AL036586 AA386055 AL135179 AW882199 424160 236151_1 T74062 F12441 AA336207 BE185031 424290 237857_1 AA338396 AW966247 AW753612 424951 245273_1 AW964082 AA348838 AA348839 425288 249569_1 AA354502 AA355215 AW962122 425303 249780_1 AA354785 AA354792 AW958427 425702 255206_1 N59555 AA362113 AA362136 425724 255509_1 AA362525 AW979199 AA857501 425757 255956_1 AA363171 AW963347 AA371863 425893 257742_1 AA629695 AA365582 AA365581 AW959799 AW876559 AW876588 425980 258778_1 AA366951 AA470999 AA469425 426123 261304_1 AA370352 AA370860 AW962776 426477 267804_1 AA379464 AA379611 AA379463 428036 28620_1 AW068302 AI754558 AI750727 AI752631 AA302174 AA327522 M64110 AW859944 AW859989 AI751995 AA769620 AI858829 AI924875 AI888836 AA864291 AI685060 AW088029 AI924908 AW466328 AI093800 AA991651 AI254501 BE004703 AA334442 AW938852 AA194330 AL046953 AA852866 AW391995 W30846 AW662928 W25261 AA042863 R99045 H97060 W03910 H94687 T88984 AL048165 T29632 N31556 N36484 AI798679 AA989355 W23832 AA873789 AI743646 AA363587 AI814748 AW338990 N73740 N83666 AL047816 R24137 R63433 AA524984 AA234043 AA195131 N99903 AA453669 AI240302 AA370271 AI950026 AW771049 AA121476 AA569557 AI752632 AI355594 AI471993 AI159941 N94555 AI753138 N21537 H97881 N25769 AW068044 AA808425 R63380 AA384736 AA384738 AA852352 AI073645 AA527960 AA525036 AA044414 AI752460 AA703064 R01216 AA897183 AI751996 T81078 H95047 AA573642 D58348 N20953 AA437143 N95439 AA579540 AW867056 AA770090 AI085180 AI806799 AA426421 AI572513 R24081 AA853189 AA295620 AA234044 AA371020 AW994984 H20896 AW964438 AA318516 AA318499 AA318727 AA318211 AA318478 AA318444 AA318307 AA318497 AA318448 AA318309 AA318496 AA318213 AA318435 AA318424 AA318217 AA318523 AA318438 AA318487 AA318724 AA593185 AW994985 T69842 AI251813 AA478174 AA447737 T68350 F07712 AA121145 H08973 AA345212 BE000667 AW068210 AW608407 R05674 H16712 N85426 N42354 H85516 BE147991 T28113 R32662 AA384678 AW239275 H82382 AW840700 D58229 C04082 W45394 AW795667 R73973 BE002409 AA042828 AA363555 AJ223812 AA344709 BE149590 R70995 W46881 W90778 N71242 AA534826 AL040676 R23797 H96450 AA062957 D79947 W46960 AW959278 AA295997 AA026215 AW579469 AW365135 AW365134 AW994353 AW972886 AW069166 AA343690 AW888731 AI751527 AA937490 AA937506 AI826715 BE465604 AI925532 AI858109 AW339097 AI858524 AI720571 BE046506 AW384981 AA043908 AA375983 AA525181 AW068366 AW070577 AW891837 N83985 AW182753 AI422979 AI679733 BE006555 AL048166 AI081401 AI888821 AI626043 N37087 AI624140 AI801298 AA600048 AI753947 H89615 N66424 AW069756 AI814880 AI982806 AI754287 AI971816 AW069022 AW069069 AW069454 AA342989 AI077712 AI311467 AI087361 AI801015 W46993 AI281324 AW191963 AI421675 AI300881 AI356670 AA873156 AI004219 AI189685 AA478018 AA076063 AI445222 AI753124 AI521569 AI925026 AI022368 AI475993 H20846 AI223234 AI635123 AA579170 N30442 AW117889 AA807935 AA558975 AI306636 AA888963 AI952591 AI935835 AI445293 H16713 AW139833 AA622122 AA972051 AI280828 H09543 AI453725 AW069613 AI865615 AI753921 AI368782 AI633208 AI446651 W46961 N22201 H82276 C16555 AA291477 AW440535 AW517755 AA669921 AI926777 AW662118 AA553369 N67873 AW023948 C15861 C16601 AI251465 AW079187 BE045090 AI273006 C16390 C16503 AI620823 F13661 N66864 Z21311 C16108 C16089 C16400 AA758273 AI287781 AA864676 AW608074 AW385583 AI589944 AA665817 AW192979 AW469065 AA564048 H84715 C16417 AA731072 AA661674 C16487 N29477 AW189997 AI370492 C16471 AA652809 AA936687 AA506512 C16306 AW028413 AI537935 AA528347 C16255 AW029046 C16202 AI868152 AI524662 T94414 AI567041 AI619654 AW008486 AI075624 AA577434 AA345104 T30105 AA932002 C16585 AI750390 AW294265 AI619552 AA669781 AA026678 AW132002 AW263919 C16562 AA759137 AA693351 Z40779 C16577 AA885045 AW073763 R45484 AI520895 U54708 T49285 AI568126 AW006569 AI093317 AL119781 T61046 AI053563 H51958 AF114144 AA305739 AW950394 AW793928 AW793910 AL047737 AV659047 AV659632 AI750389 AA092053 AA092798 H85367 T61597 R23745 Z20418 T78485 AI751528 AW068121 AA853188 AI752459 AA853711 AW950663 R78964 R36359 R21626 R21522 428518 292383_1 AW969656 AA501412 AA905186 AA429703 AA431958 429321 302955_1 AA449921 AA449922 C75309 429468 30498_1 AF033579 NM_005995 430068 312849_1 AA464964 M85405 AA947566 430439 31808_1 AL133561 AL041090 AL117481 AL122069 AW439292 AI968826 431089 327825_1 BE041395 AA491826 AA621946 AA715980 AA666102 431322 331543_1 AW970622 AA503009 AA502998 AA502989 AA502805 T92188 431926 339082_1 AW972724 AA522631 AA877998 432222 343347_1 AI204995 AW827539 AW969908 AW440776 AA528756 432407 34624_1 AA221036 R87170 BE537068 BE544757 C18935 AW812058 T92565 AA227415 AA233942 AA223237 AA668403 AA601627 AW869639 BE061833 BE000620 AW961170 AW847519 AA308542 AW821833 AW945688 C04699 AA205504 AA377241 AW821667 AA055720 AW817981 AW856468 AA155719 AA179928 T03007 AW754298 AA227407 AA113928 AA307904 C16859 432586 350432_1 AA568548 AI050036 AA554053 AI911659 AI826259 433010 357372_1 AW970018 AA573669 AA573622 R08736 433436 366107_1 AW162474 AA588442 AI972440 434414 38585_1 AI798376 S46400 AW811617 AW811616 W00557 BE142245 AW858232 AW861851 AW858362 AA232351 AA218567 AA055556 AW858231 AW857541 AW814172 H66214 AW814398 AF134164 AA243093 AA173345 AA199942 AA223384 AA227092 AA227080 T12379 AA092174 T61139 AA149776 AA699829 AW879188 AW813567 AW813538 AI267168 AA157718 AA157719 AA100472 AA100774 AA130756 AA157705 AA157730 AA157715 AA053524 AW849581 AW854566 C05254 AW882836 T92637 AW812621 AA206583 AA209204 BE156909 AA226824 AI829309 AW991957 N66951 AA527374 H66215 AA045564 AI694265 H60808 AA149726 AW195620 BE081333 BE073424 AW817662 AW817705 AW817703 AW817659 BE081531 H59570 434830 39406_1 AW852235 AF156166 R07008 435073 399701_1 AA664078 AW363313 AA805009 436608 42361_3 AA628980 AI126603 BE504035 437046 43210_1 BE149154 BE149151 X60138 437272 435447_1 AW975957 AA747943 AA811289 437908 445001_1 AI082424 AI740586 AA771764 AA771806 AI033879 BE500996 AW204531 D38676 438089 44963_1 W05391 X56197 H75313 AW770789 AA281642 AV654440 AA344646 R00244 T83378 438091 44964_1 AW373062 T55662 AI299190 BE174210 AW579001 H01811 W40186 R67100 AI923886 AW952164 AA628440 AW898607 AW898616 AA709126 AW898628 AW898544 AA947932 AW898625 AW898622 AI276125 AI185720 AW510698 AA987230 T52522 BE467708 AW243400 AW043642 AI288245 AI186932 D52654 D55017 D52715 D52477 D53933 D54679 AI298739 AI146984 AI922204 N98343 BE174213 AA845571 AI813854 AI214518 AI635262 AI139455 AI707807 AI698085 AW884528 AI024768 AI004723 AW087420 AI565133 N94964 AI268939 AW513280 AI061126 AI435818 AI859106 AI360506 AI024767 AA513019 AA757598 X56196 AA902959 AI334784 AI860794 AA010207 AW890091 AW513771 AI951391 AI337671 T52499 AA890205 AI640908 H75966 AA463487 AA358688 AI961767 AI866295 AA780994 AI985913 BE174196 AA029094 AW592159 T55581 N79072 AI611201 AA910812 AI220713 AW149306 AI758412 AA045713 R79750 N76096 438535 45946_1 L09078 L03145 L09094 L09098 L03165 L09102 438813 46553_1 M27346 439590 47413_1 AF086410 W94386 W74609 439848 477806_1 AW979249 D63277 AA846968 440612 49847_1 BE561384 AW732707 440642 499098_1 AI744995 AI973099 R19291 AA935215 AA897534 AI698070 BE179102 AI694912 441846 527227_1 AW850980 AA969613 AW366793 443100 559752_1 AI033188 BE004743 AW804074 BE004795 BE178660 BE089438 BE089378 BE089439 BE089437 BE089423 BE089420 BE089425 BE089424 BE089426 443197 56261_1 Z43613 AA320191 AW954963 H15889 R83872 443357 567506_1 AW016773 AI052778 AI452937 AW085293 444163 593658_1 AI126098 AI184746 AI148521 444298 600160_1 Z17870 AL039867 AI139927 444312 600647_1 R44007 N54521 AI140476 AW418649 T95308 444872 623948_1 AI936264 AI219228 AI200740 BE300771 AI635739 AI690626 AW044010 R60842 R40388 445468 640681_1 AW450439 AW297340 AI239849 AI613119 445555 64334_1 AW974013 AA557257 N36812 AI597998 AA873565 445689 647829_1 BE158869 AI248241 BE158865 BE158868 446780 692897_1 R31107 AI341136 AI653198 H04953 447008 70358_1 BE010189 AW879041 BE008038 AW905325 AA343575 AW844209 AL038020 BE010133 BE010083 AW903901 BE174377 AI309717 AI349651 AI903726 BE176661 AW905394 448489 765247_1 AI523875 R45782 R45781 450717 844561_1 T94709 AI820675 AI732253 450724 844585_1 R55428 AI820704 AI732283 R54983 450735 844617_1 AI732321 R55640 R55639 AI820744 451724 882130_1 AI903765 AI811194 BE007147 AW130760 452565 922372_1 BE066552 BE066341 AI907683 453577 972216_1 AL043049 T95976 453823 982526_1 AL137967 BE064160 BE064186 453826 982669_1 AL138129 AL138179 BE064231 454457 1207274_1 AW753456 AW753036 AW854868 AW854862 454523 1221564_1 AW803980 AW803974 454609 1226517_1 AW810204 AW810555 AW810196 AW810619 AW810507 454629 1227240_1 AW811114 AW811095 AW811087 AW811124 AW811054 AW811094 AW811157 454631 1227443_1 AW811324 AW811325 AW811326 AW811333 AW811329 AW811328 AW811332 AW811339 AW811335 454639 1227728_1 AW811633 AW811652 AW811898 454662 1228537_1 AW812715 AW812646 AW812714 454701 1229702_1 AW854930 AW814431 AW814190 AW814115 AW854941 454721 1230747_1 AW815588 AW815671 AW815493 AW815898 AW815613 AW815490 AW815808 AW815426 454741 1232559_1 BE154396 AW817959 BE154393 454826 1236377_1 AW833676 AW833814 AW833798 AW833677 AW833449 AW833630 AW833626 AW833444 AW833366 AW833791 AW833659 AW833432 AW833534 AW833556 AW833553 454915 1242343_1 AW841619 AW851958 AW851851 AW851985 455065 1251980_1 AW854352 AW854311 AW854340 AW854461 455087 1252832_1 AW855389 AW855556 AW855420 455116 1254206_1 AW857271 AW857308 AW857296 AW857258 455236 1265662_1 AW875972 AW875983 AW875974 AW876000 AW875966 AW876050 455300 1276482_1 AW891707 AW891696 AW891917 AW891913 AW891912 AW891909 AW891890 AW891892 AW891889 AW891697 AW891880 AW891898 455407 1288347_1 AW936813 AW936731 AW936728 AW936600 AW936681 AW936651 455508 1318507_1 AW976165 C04000 455527 1322125_1 AW984479 AW984498 AW984495 AW984477 AW984480 AW984504 455642 1348163_1 BE063965 BE063968 BE064034 BE064028 BE063874 BE063966 BE063869 BE064043 BE064033 BE063884 455649 1348708_1 BE065051 BE155165 BE064764 BE155231 BE064648 BE064671 BE064636 455753 1356070_1 BE075124 BE075229 BE075278 455757 1358657_1 BE079531 BE079371 BE079372 BE079593 BE079468 BE079504 BE079505 455908 1382301_1 BE156306 BE156188 BE156298 BE156377 BE156374 455917 1382784_1 BE156765 BE156770 BE156767 BE156769 BE156803 BE156802 BE156847 BE156853 BE156780 BE156836 BE156792 BE156834 BE156779 BE156789 BE156833 BE156844 BE156831 BE156849 BE156797 BE156784 BE156801 BE156843 BE156793 BE156852 455988 1397740_1 BE177983 BE178322 456034 142696_1 AW450979 AA136653 AA136656 AW419381 AA984358 AA492073 BE168945 AA809054 AW238038 BE011212 BE011359 BE011367 BE011368 BE011362 BE011215 BE011365 BE011363 456172 1603643_1 R99050 R99067 H67642 456332 179104_1 AA228357 AW841786 AW841716 456381 184123_1 AA236606 AA459341 AA237079 457297 313764_1 AW968188 AA468196 AA468269 AA468298 457389 331080_1 AW970989 AA502167 AA507546 457567 357346_1 AW939074 AW939073 BE160476 AW939938 AW939206 AW940012 AW939076 AA573577 AW750479 AA574383 AW970057 457581 359936_1 AA578512 AA595535 BE177533 457741 395767_1 BE044740 AW827360 AW827623 BE161439 BE044718 BE046207 BE046551 AA653908 BE166581 457871 426637_1 AI168278 AA868238 BE550792 AI522194 AI819707 AA973538 AI990086 AI628424 AI095270 AI991608 AA730741 457951 44251_1 U23860 U80739 459234 945240_−1 AI940425

[0384] TABLE 8C Pkey Ref Strand Nt_position 400704 8118864 Minus 63110-63241 400830 8570385 Plus 157683-163035 400834 8705192 Plus 121963-122288 400840 9188586 Plus 113882-114121 400850 1927150 Minus 4506-4691 400881 2842777 Minus 91446-91603, 92123-92265 401016 8117441 Plus 126234-126359, 128050-128236 401090 8492704 Minus 201281-201460 401215 9858408 Plus 103739-103919 401241 4827300 Minus 30503-30844, 31056-31248 401335 9884881 Plus 15736-16352 401381 8570226 Minus 118629-119146, 119392-119657 401400 7708226 Minus 33028-33585 401469 6682292 Minus 125521-125639 401473 7249001 Plus 115142-117305 401577 9280797 Minus 139377-139674, 141195-141281, 142217-142340 401658 9100664 Plus 89638-90028 401659 7689875 Minus 183379-183521 401686 6468551 Plus 5005-5426, 6810-7042 401723 7656694 Plus 147273-147503 401814 7408052 Plus 136003-136726 401818 7467933 Minus 10964-11084, 11674-11817 401890 8516144 Plus 148955-149396, 149569-150002 401908 8698760 Minus 126888-127024 401913 9369520 Minus 33753-33904 401927 3873185 Minus 112000-112137 402025 7547159 Plus 173835-173998 402039 7770432 Plus 560-1294 402049 8072512 Plus 100065-100419 402085 7249154 Plus 90533-90687, 94949-95158 402241 7690131 Minus 125073-125206, 130996-131125 402294 2282012 Minus 2575-3000 402305 7328724 Plus 40832-41362 402366 9454515 Plus 195808-196863 402551 9856793 Minus 37346-37633 402654 8076879 Plus 44058-44803 402685 8318556 Plus 58962-59294 402762 9230904 Minus 123298-124035 402797 3421043 Minus 15758-15930 402833 8918545 Plus 26987-27778 402901 8894222 Minus 175426-175667 402948 9368458 Minus 143456-143626, 143808-143935 403066 8954202 Plus 158189-158433 403072 8954241 Plus 141829-142006 403146 9799812 Plus 162877-163118 403197 9930749 Plus 79990-80237 403214 7630945 Minus 76723-77027, 79317-79484 403217 7630969 Plus 54089-54163, 55427-55623 403290 8083176 Plus 19288-20076 403291 7230870 Plus 95177-95435 403294 8096496 Plus 41565-41881 403315 8247953 Minus 125117-125287 403332 8568139 Minus 31409-31674 403344 8569726 Plus 70823-70990 403362 8571772 Plus 64099-64260 403371 9087278 Plus 105655-106050 403391 9438337 Plus 42410-42544, 83317-83540, 86840-86922, 87970-88110 403488 9966615 Minus 12450-12753 403536 8076924 Plus 34972-35182 403779 8018040 Minus 95602-95969 403859 7708954 Plus 113738-113858 403871 7709262 Plus 104545-104757 403903 7710671 Minus 101165-102597 403917 7710849 Plus 109718-109847, 109927-110202 403978 8576014 Plus 97326-97808 404031 7671252 Plus 171477-172316 404167 9926594 Minus 77030-77280 404220 6706820 Plus 46107-46439 404286 2326514 Plus 51086-51301 404418 7382420 Minus 153339-153481, 155099-155294 404427 7407959 Plus 127170-127358 404429 7407979 Plus 31352-31498 404440 7528051 Plus 80430-81581 404495 8151634 Minus 59449-60477 404580 6539738 Minus 240588-241589 404606 9212936 Minus 22310-23269 404730 8389582 Plus 119832-120016, 124110-124275 404917 7341851 Plus 49330-49498 405033 7107731 Minus 142358-142546 405137 8570507 Plus 158969-159423 405146 9438278 Minus 102529-102633 405158 9966252 Plus 42873-43056, 43815-43949 405187 7229826 Plus 117025-117170, 118567-118736 405223 7239614 Plus 106184-106313 405340 6094635 Plus 49644-49760 405494 8050952 Minus 70284-70518 405551 1552506 Plus 12525-12997 405654 4895155 Minus 53624-53759 405667 4726099 Plus 5798-5914 405673 4589984 Plus 50700-50842 405704 4204244 Plus 138842-139051 405723 9801668 Plus 114896-115831 405727 9838331 Minus 78865-79664 405760 6066938 Minus 37424-38045 405779 7280331 Minus 33048-33856 405944 7883702 Minus 5143-5684 406002 8247797 Minus 154007-154579 406016 8272661 Plus 41341-41940 406097 7107918 Minus 36698-37269 406104 9124028 Plus 35309-35977 406156 7144867 Plus 379-597 406207 5923650 Minus 162607-162800 406300 6479046 Minus 19234-19401 406308 9211532 Plus 358408-358651 406314 9211609 Minus 12899-13011, 18022-18136 406317 9211652 Plus 108018-108410 406432 9256504 Plus 3804-3930, 4026-4120, 4929-5109 406490 7711309 Minus 80295-80480 406584 3983530 Minus 3989-4497

[0385] TABLE 9A Genes predictive of no bladder cancer progression Pkey ExAccn UnigeneID Unigene Title R1 R2 408000 L11690 Hs.198689 bullous pemphigoid antigen 1 (230/240 kD) 4.64 5.88 412129 M21984 Hs.73454 troponin T3, skeletal, fast 4.54 5.10 459290 NM_001546 Hs.34853 inhibitor of DNA binding 4, dominant neg 4.37 1.63 400844 NM_003105*: Homo sapiens sortilin-related 3.69 5.90 419555 AA244416 gb: nc07d11.s1 NCI_CGAP_Pr1 Homo sapiens 3.61 2.03 414522 AW518944 Hs.76325 step II splicing factor SLU7 3.60 1.00 440509 BE410132 Hs.134202 ESTs, Weakly similar to T17279 hypotheti 3.58 1.04 445182 AW189787 ESTs 3.57 2.70 407151 H25836 Hs.301527 ESTs, Moderately similar to unknown [H. s 3.56 1.48 421314 BE440002 Hs.180324 Homo sapiens, clone IMAGE: 4183312, mRNA, 3.28 3.25 429663 M68874 Hs.211587 phospholipase A2, group IVA (cytosolic, 3.25 2.50 430702 U56979 Hs.278568 H factor 1 (complement) 3.20 2.70 412420 AL035668 Hs.73853 bone morphogenetic protein 2 3.20 2.30 420729 AW964897 Hs.290825 ESTs 3.20 1.53 433376 AI249361 Hs.74122 caspase 4, apoptosis-related cysteine pr 3.00 4.10 420028 AB014680 Hs.8786 carbohydrate (N-acetylglucosamine-6-O) s 2.94 2.78 407881 AW072003 Hs.40968 heparan sulfate (glucosamine) 3-O-sulfot 2.93 1.43 426283 NM_003937 Hs.169139 kynureninase (L-kynurenine hydrolase) 2.93 1.33 428030 AI915228 Hs.11493 Homo sapiens cDNA FLJ13536 fis, clone PL 2.92 2.47 419713 AW968058 Hs.92381 nudix (nucleoside diphosphate linked moi 2.89 3.33 414407 AA147026 Hs.76704 ESTs 2.87 2.87 450779 AW204145 Hs.156044 ESTs 2.78 1.86 411243 AB039886 Hs.69319 CA11 2.73 1.00 417878 U90916 Hs.82845 Homo sapiens cDNA: FLJ21930 fis, clone H 2.68 2.32 441619 NM_014056 Hs.7917 DKFZP564K247 protein 2.67 2.98 446619 AU076643 Hs.313 secreted phosphoprotein 1 (osteopontin, 2.66 1.00 440006 AK000517 Hs.6844 hypothetical protein FLJ20510 2.64 1.77 426252 BE176980 Hs.28917 ESTs 2.63 7.30 424008 R02740 Hs.137555 putative chemokine receptor; GTP-binding 2.60 2.53 429429 AA829725 Hs.334437 hypothetical protein MGC4248 2.59 3.34 427450 AB014526 Hs.178121 KIAA0626 gene product 2.57 2.28 420180 AI004035 Hs.25191 ESTs 2.56 1.68 434061 AW024973 Hs.283675 NPD009 protein 2.54 2.10 422070 AF149785 Hs.111126 pituitary tumor-transforming 1 interacti 2.54 3.25 419355 AA428520 Hs.90061 progesterone binding protein 2.53 3.63 446215 AW821329 Hs.14368 SH3 domain binding glutamic acid-rich pr 2.52 4.38 432442 AI672516 Hs.178485 ESTs, Weakly similar to S65657 alpha-1C- 2.50 4.60 447887 AA114050 Hs.19949 caspase 8, apoptosis-related cysteine pr 2.49 2.23 401155 Target Exon 2.48 2.30 404530 Target Exon 2.48 1.00 446006 NM_004403 Hs.13530 deafness, autosomal dominant 5 2.48 2.35 436476 AA326108 Hs.33829 bHLH protein DEC2 2.47 2.88 446535 AF257175 Hs.15250 peroxisomal D3, D2-enoyl-CoA isomerase 2.46 2.19 408636 BE294925 Hs.46680 CGI-12 protein 2.45 1.60 420962 NM_005904 Hs.100602 MAD (mothers against decapentaplegic, Dr 2.44 3.75 427008 Z45258 Hs.286013 short coiled-coil protein 2.42 3.40 459711 BE386801 Hs.21858 trinucleotide repeat containing 3 2.40 2.78 407910 AA650274 Hs.41296 fibronectin leucine rich transmembrane p 2.40 1.00 410337 M83822 Hs.62354 cell division cycle 4-like 2.39 3.88 435029 AF167706 Hs.19280 cysteine-rich motor neuron 1 2.39 3.23 437181 AI306615 Hs.125343 ESTs, Weakly similar to KIAA0758 protein 2.39 1.00 410968 AA199907 Hs.67397 homeo bus A1 2.38 1.33 422511 AU076442 Hs.117938 collagen, type XVII, alpha 1 2.38 6.40 450775 AA902384 Hs.73853 bone morphogenetic protein 2 2.38 2.71 442433 BE243044 Hs.8309 KIAA0747 protein 2.37 3.68 454000 AA040620 Hs.5672 hypothetical protein AF140225 2.36 1.14 447701 BE619526 Hs.255527 hypothetical protein MGC14128 2.36 2.02 427985 AI770170 Hs.29643 Homo sapiens cDNA FLJ13103 fis, clone NT 2.36 2.18 442257 AW503831 Hs.323370 Human EST clone 25267 mariner transposon 2.35 3.53 454070 N79110 Hs.21276 collagen, type IV, alpha 3 (Goodpasture 2.35 3.60 418452 BE379749 Hs.85201 C-type (calcium dependent, carbohydrate- 2.35 2.48 421218 NM_000499 Hs.72912 cytochrome P450, subfamily I (aromatic c 2.35 1.00 407793 AW080879 Hs.236572 gb: xc38g04.x1 NCI_CGAP_Co20 Homo sapiens 2.35 1.21 442061 AA774284 Hs.285728 abl-interactor 12 (SH3-containing protei 2.34 3.03 402845 ENSP00000246267: KIAA0444 PROTEIN (FRAGME 2.34 1.52 411407 R00903 Hs.169793 ribosomal protein L32 2.34 0.77 418506 AA084248 Hs.85339 G protein-coupled receptor 39 2.34 0.72 424637 NM_015057 Hs.151411 KIAA0916 protein 2.32 2.55 413804 T64682 gb: yc48b02.r1 Stratagene liver (937224) 2.32 1.46 411060 NM_006074 Hs.318501 Homo sapiens mRNA full length insert cDN 2.32 2.90 430028 BE564110 Hs.227750 Target CAT 2.32 2.28 417720 AA205625 Hs.208067 ESTs 2.32 2.09 436396 AI683487 Hs.152213 wingless-type MMTV integration site fami 2.31 1.13 454219 X75042 Hs.44313 v-rel avian reticuloendotheliosis viral 2.30 4.38 444745 AF117754 Hs.11861 thyroid hormone receptor-associated prot 2.30 1.86 408179 AL042465 Hs.43445 poly(A)-specific ribonuclease (deadenyla 2.29 2.19 442679 R53718 Hs.107882 hypothetical protein FLJ10659 2.29 2.79 458949 AW291777 Hs.346137 ESTs, Weakly similar to T08599 probable 2.28 1.85 407191 AA608751 gb: ae56h07.s1 Stratagene lung carcinoma 2.27 2.42 448367 AI955411 Hs.94109 Homo sapiens cDNA FLJ13634 fis, clone PL 2.27 1.18 405155 Target Exon 2.26 1.94 445594 AW058463 Hs.12940 zinc-fingers and homeoboxes 1 2.26 1.55 417458 NM_005655 Hs.82173 TGFB inducible early growth response 2.25 1.95 430315 NM_004293 Hs.239147 guanine deaminase 2.24 1.84 411945 AL033527 Hs.92137 v-myc avian myelocytomatosis viral oncog 2.24 2.73 408937 AA210734 Hs.291386 ESTs 2.24 3.18 431474 AL133990 Hs.190642 CEGP1 protein 2.23 1.00 434094 AA305599 Hs.238205 hypothetical protein PRO2013 2.22 4.08 420997 AK001214 Hs.100914 hypothetical protein FLJ10352 2.22 2.15 420164 AW339037 Hs.24908 ESTs 2.22 2.16 414099 U11313 Hs.75760 sterol carrier protein 2 2.21 4.05 424800 AL035588 Hs.153203 MyoD family inhibitor 2.21 3.53 459005 AA447679 Hs.144558 ESTs, Weakly similar to ALU1_HUMAN ALU S 2.21 2.90 416290 NM_000016 Hs.79158 acyl-Coenzyme A dehydrogenase, C-4 to C- 2.20 4.00 439208 AK000299 Hs.180952 dynactin 4(p62) 2.20 1.88 401563 C15001262: gi|7304981|ref|NP_038528.1| ca 2.20 1.77 404687 C9000375*: gi|11994617|dbj|BAB02754.1| (A 2.19 2.60 443303 U67319 Hs.9216 caspase 7, apoptosis-related cysteine pr 2.19 2.08 439866 AA280717 Hs.6727 Ras-GTPase activating protein SH3 domain 2.19 2.21 400835 AW853954 chromosome 2 open reading frame 2 2.18 3.00 456855 AF035528 Hs.153863 MAD (mothers against decapentaplegic, Dr 2.18 2.45 431689 AA305688 Hs.267695 UDP-Gal: betaGlcNAc beta 1,3-galactosyltr 2.17 1.83 418026 BE379727 Hs.83213 fatty acid binding protein 4, adipocyte 2.17 2.67 451131 AI267586 Hs.268012 fatty-acid-Coenzyme A ligase, long-chain 2.17 1.71 408038 Y14443 zinc finger protein 200 2.17 1.71 434078 AW880709 Hs.283683 chromosome 8 open reading frame 4 2.17 1.00 441623 AA315805 desmoglein 2 2.17 1.81 459244 AW503990 Hs.142442 HP1-BP74 2.17 4.03 424720 M89907 Hs.152292 SWI/SNF related, matrix associated, acti 2.17 2.93 404204 ENSP00000252204*: Zinc finger protein 165 2.17 1.02 453987 AA323750 Hs.235026 Homo sapiens, clone IMAGE: 4247529, mRNA, 2.16 2.85 411400 AA311919 Hs.69851 nucleolar protein family A, member 1 (H/ 2.16 3.60 454949 AW847318 Hs.290131 KIAA1819 protein 2.16 1.96 409223 AA312572 Hs.6241 phosphoinositide-3-kinase, regulatory su 2.16 1.48 418030 BE207573 Hs.83321 neuromedin B 2.16 2.07 433364 AI075407 Hs.296083 ESTs, Moderately similar to I54374 gene 2.16 2.32 459511 AI142379 gb: qg64c01.r1 Soares_testis_NHT Homo sap 2.16 1.85 437559 AI678033 Hs.121476 ESTs 2.15 1.43 418827 BE327311 Hs.47166 HT021 2.15 3.84 417470 AF112219 Hs.82193 esterase D/formylglutathione hydrolase 2.15 1.74 421012 X53281 Hs.101025 basic transcription factor 3 2.15 1.26 448772 AW390822 Hs.301528 L-kynurenine/alpha-aminoadipate aminotra 2.15 4.05 439601 AB029032 Hs.6606 KIAA1109 protein 2.15 2.15 434417 AL110157 Hs.3843 Home sapiens mRNA; cDNA DKFZp586F2224 (f 2.15 1.45 424865 AF011333 Hs.153563 lymphocyte antigen 75 2.15 2.63 400752 NM_003105*: Homo sapiens sortilin-related 2.14 2.67 438916 AW188464 Hs.101515 ESTs 2.14 2.38 430024 AI808780 Hs.227730 integrin, alpha 6 2.14 2.00 409345 AI949109 hypothetical protein FLJ20783 2.14 1.40 421939 BE169531 Hs.109727 TAK1-binding protein 2; KIAA0733 protein 2.13 1.58 442315 AA173992 Hs.7956 ESTs, Moderately similar to ZN91_HUMAN Z 2.13 2.67 419591 AF090900 Hs.91393 Homo sapiens cDNA: FUJ21887 fis, clone H 2.13 2.00 458025 AI275406 Hs.32450 gb: qI63c10.x1 Soares_NhHMPu_S1 Homo sapi 2.12 0.89 428582 BE336699 Hs.185055 BENE protein 2.12 2.65 422749 W01076 Hs.278573 CD59 antigen p18-20 (antigen identified 2.12 2.73 433091 Y12642 Hs.3185 lymphocyte antigen 6 complex, locus D 2.11 0.91 456421 AL157485 Hs.91973 hypothetical protein 2.11 2.51 421508 NM_004833 Hs.105115 absent in melanoma 2 2.11 3.13 402760 NM_021797*: Homo sapiens eosinophil chemo 2.09 1.79 406274 Target Exon 2.09 1.60 406897 M57417 gb: Home sapiens mucin (mucin) mRNA, part 2.09 1.00 409632 W74001 Hs.55279 serine (or cysteine) proteinase inhibito 2.09 2.92 445320 AA503887 Hs.167011 Home sapiens cDNA: FLJ21362 fis, clone C 2.09 3.20 442271 AF000652 Hs.8180 syndecan binding protein (syntenin) 2.09 1.90 428336 AA503115 Hs.183752 microseminoprotein, beta- 2.08 1.15 405165 ENSP00000238974*: Homeobox protein NKX2-3 2.07 2.83 416999 AW195747 Hs.21122 hypothetical protein FLJ11830 similar to 2.07 3.71 453865 AA307279 Hs.35947 methyl-CpG binding domain protein 4 2.07 1.71 439924 AI985897 Hs.125293 ESTs 2.07 1.00 439004 AW979062 gb: EST391172 MAGE resequences, MAGP Homo 2.07 2.13 407955 BE536739 Hs.109909 ESTs 2.06 1.91 412998 BE046254 gb: hn38g09.x2 NCI_CGAP_RDF2 Homo sapiens 2.06 2.58 414013 AA766605 Hs.47099 hypothetical protein FLJ21212 2.05 5.00 415249 R40515 Hs.21248 ESTs 2.05 2.18 427332 R09418 Hs.261101 ESTs, Weakly similar to I38022 hypotheti 2.05 3.35 426521 AF161445 Hs.170219 hypothetical protein 2.05 1.00 431211 M86849 Hs.323733 gap junction protein, beta 2, 26 kD (conn 2.05 6.03 423851 R39505 Hs.133342 Homo sapiens clone 24566 mRNA sequence 2.05 1.88 410028 AW576454 Hs.346502 ESTs 2.04 1.95 406575 Target Exon 2.04 1.56 457148 AF091035 Hs.184627 KIAA0118 protein 2.04 3.11 449924 W30681 Hs.146233 Homo sapiens cDNA: FLJ22130 fis, clone H 2.04 2.42 429837 NM_003896 Hs.225939 sialyltransferase 9 (CMP-NeuAc: lactosylc 2.04 1.97 440675 AW005054 Hs.47883 ESTs, Weakly similar to KCC1_HUMAN CALCI 2.04 2.06 411988 AA455459 Hs.164480 ESTs, Weakly similar to T50609 hypotheti 2.04 2.65 433293 AF007835 Hs.32417 hypothetical protein MGC4309 2.04 2.35 446187 AK001241 Hs.14229 hypothetical protein FLJ10379 2.04 2.03 420838 AW118210 Hs.42321 ESTs 2.03 1.00 445481 AW661846 Hs.346630 ESTs 2.03 2.49 448175 BE296174 Hs.225160 hypothetical protein FLJ13102 2.03 2.25 410600 AW575742 ESTs, Moderately similar to S65657 alpha 2.02 2.10 401177 Target Exon 2.02 2.59 448474 AI792014 Hs.13809 hypothetical protein FLJ10648 2.02 4.23 434782 NM_005032 Hs.4114 plastin 3 (T isoform) 2.02 1.48 424125 M31669 Hs.1735 inhibin, beta B (activin AB beta polypep 2.02 2.93 424241 AW995948 Hs.182339 Homo sapiens pyruvate dehydrogenase kina 2.02 2.63 424673 AA345051 Hs.294092 ESTs, Weakly similar to I38022 hypotheti 2.02 3.43 414721 X90392 Hs.77091 ribosomal protein L10 2.02 1.89 429869 AI907018 Hs.15977 Target CAT 2.02 1.47 439177 AW820275 Hs.76611 ESTs, Weakly similar to I38022 hypotheti 2.01 1.94 437175 AW968078 Hs.87773 protein kinase, cAMP-dependent, catalyti 2.01 1.64 452046 AB018345 Hs.27657 KIAA0802 protein 2.01 4.31 417615 BE548641 Hs.82314 hypoxanthine phosphoribosyltransferase 1 2.01 6.75 420337 AW295840 Hs.14555 Homo sapiens cDNA: FLJ21513 fis, clone C 2.00 2.75 408232 AL137269 Hs.43899 Homo sapiens mRNA; cDNA DKFZp434C1714 (f 2.00 2.02 408409 AW838181 Hs.278337 Homo sapiens cDNA FLJ11537 fis, clone HE 2.00 1.95 433256 AW604447 Hs.339408 ESTs, Weakly similar to S26689 hypotheti 2.00 0.91 426969 AI936504 Hs.2083 CDC-like kinase 1 2.00 3.60 442053 R35343 Hs.24968 Human DNA sequence from clone RP1-233G16 2.00 1.95 444916 AB028956 Hs.12144 KIAA1033 protein 2.00 1.23 452286 AI358570 Hs.123933 ESTs, Weakly similar to ZN91_HUMAN ZINC 2.00 5.30 414906 AA157911 Hs.72200 ESTs 1.99 1.22 414176 BE140638 Hs.75794 endothelial differentiation, lysophospha 1.99 3.83 414557 AA340111 Hs.100009 acyl-Coenzyme A oxidase 1, palmitoyl 1.99 2.31 452846 AA082160 Hs.63368 ESTs, Weakly similar to TRHY_HUMAN TRICH 1.99 3.43 408437 AW957744 Hs.278469 lacrimal proline rich protein 1.98 2.15 439205 AF087990 Hs.42758 Homo sapiens, clone IMAGE: 3354845, mRNA, 1.98 2.28 442506 BE566411 ESTs 1.98 3.95 447731 AA373527 Hs.19385 CGI-58 protein 1.98 2.67 410579 AK001628 Hs.64691 KIAA0483 protein 1.97 2.43 426716 NM_006379 Hs.171921 sema domain, immunoglobulin domain (lg), 1.97 2.50 456141 AI751357 Hs.288741 Homo sapiens cDNA: FLJ22256 fis, clone H 1.97 3.03 419576 AK002060 Hs.91251 hypothetical protein FLJ11198 1.96 2.88 407241 M34516 gb: Human omega light chain protein 14.1 1.96 1.09 420664 AI681270 Hs.99824 BCE-1 protein 1.96 1.75 448586 AF285120 Hs.283734 CGI-204 protein 1.96 3.28 408089 H59799 Hs.42644 thioredoxin-like 1.95 4.00 421100 AW351839 Hs.124660 Homo sapiens cDNA: FLJ21763 fis, clone C 1.95 2.12 452518 AA280722 Hs.24758 ESTs, Weakly similar to I38022 hypotheti 1.95 3.45 432015 AL157504 Hs.159115 Homo sapiens mRNA; cDNA DKFZp586O0724 (t 1.94 2.80 434263 N34895 Hs.44648 ESTs 1.94 4.60 409829 M33552 Hs.56729 lymphocyte-specific protein 1 1.94 1.79 425593 AA278921 Hs.1908 proteoglycan 1, secretory granule 1.94 2.30 401835 Target Exon 1.94 2.27 406557 C5000893: gi|6226859|sp|P38525|EFG_THEMA 1.94 3.28 440062 AI350518 Hs.129692 ESTs 1.94 3.18 410442 X73424 Hs.63788 propionyl Coenzyme A carboxylase, beta p 1.94 2.70 457281 BE253012 Hs.153400 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.94 2.60 420230 AL034344 Hs.284186 forkhead box C1 1.93 2.28 452970 NM_012238 Hs.31176 sirtuin (silent mating type information 1.93 4.35 403728 Target Exon 1.92 1.70 415789 H01581 gb: yj33f08.r1 Soares placenta Nb2HP Homo 1.92 2.15 406759 AA654582 Hs.77039 ATP synthase, H transporting, mitochondr 1.92 2.10 442073 AW973443 Hs.8086 RNA (guanine-7-) methyltransferase 1.92 4.43 438023 AF204883 Hs.6048 FEM-1 (C. elegans) homolog b 1.92 4.00 445502 AW379160 Hs.12813 DKFZP434J214 protein 1.92 2.13 405474 NM_001093*: Homo sapiens acetyl-Coenzyme 1.92 2.58 430007 NM_014892 Hs.227602 KIAA1116 protein 1.92 3.78 439937 AF151906 Hs.6776 CGI-148 protein 1.91 2.32 418068 AW971155 Hs.293902 ESTs, Weakly similar to ISHUSS protein d 1.91 1.88 444630 AI753230 Hs.323562 hypothetical protein DKFZp564K142 1.91 1.61 451184 T87943 Hs.173638 transcription factor 7-like 2 (T-cell sp 1.90 3.35 414715 AA587891 Hs.904 amylo-1,6-glucosidase, 4-alpha-glucanotr 1.90 3.55 445841 AL080115 Hs.13370 DKFZP564G0222 protein 1.90 1.46 425284 AF155568 Hs.348043 NS1-associated protein 1 1.90 3.65 437943 NM_016353 Hs.5943 rec 1.89 1.73 442426 AI373062 Hs.332938 hypothetical protein MGC5370 1.89 2.79 400111 Eos Control 1.89 3.84 437762 T78028 Hs.154679 synaptotagmin I 1.89 1.00 404069 Target Exon 1.89 2.51 434809 AW974687 gb: EST386776 MAGE resequences, MAGM Homo 1.88 2.35 414220 BE298094 Hs.323806 gb: 601118231F1 NIH_MGC_17 Homo sapiens c 1.88 1.00 422506 R20909 Hs.300741 sorcin 1.87 2.99 417439 AW602154 Hs.82143 E74-like factor 2 (ets domain transcript 1.87 1.13 404391 Target Exon 1.87 3.00 420187 AK001714 Hs.95744 hypothetical protein similar to ankyrin 1.86 2.93 446950 AA305800 Hs.5672 hypothetical protein AF140225 1.86 1.90 400634 C10000818*: gi|7661882|ref|NP_055697.1| K 1.86 2.80 408455 C19034 Hs.288613 Homo sapiens cDNA FLJ14175 fis, clone NT 1.86 1.32 422366 T83882 Hs.97927 ESTs 1.85 1.44 452170 AF064801 Hs.28285 patched related protein translocated in 1.85 2.64 430604 AV650537 Hs.247309 succinate-CoA ligase, GDP-forming, beta 1.85 1.81 426484 AA379658 Hs.272759 KIAA1457 protein 1.85 2.60 411609 AW993680 gb: RC3-BN0034-290200-013-d08 BN0034 Homo 1.85 2.10 431129 AL137751 Hs.263671 Homo sapiens mRNA; cDNA DKFZp434I0812 (f 1.84 3.70 412843 AF007555 Hs.74624 protein tyrosine phosphatase, receptor t 1.84 2.58 401512 NM_014080: Homo sapiens dual oxidase-like 1.84 1.52 415969 H11294 Hs.31047 ESTs 1.84 3.08 444736 AA533491 Hs.23317 hypothetical protein FLJ14681 1.84 1.20 426418 M90464 Hs.169825 collagen, type IV, alpha 5 (Alport syndr 1.84 2.35 416968 AA412686 Hs.97955 ESTs 1.84 2.18 442961 BE614474 Hs.289074 F-box only protein 22 1.84 2.18 418650 BE386750 Hs.86978 prolyl endopeptidase 1.84 1.98 420923 AF097021 Hs.273321 differentially expressed in hematopoieti 1.84 1.00 432834 F06459 Hs.289113 cytochrome b5 reductase 1 (B5R.1) 1.83 3.93 442485 BE092285 Hs.29724 hypothetical protein FLJ13187 1.83 3.10 427699 AW965076 Hs.180378 hypothetical protein 669 1.83 3.03 447387 AI268331 Hs.102237 tubby super-family protein 1.83 1.78 418663 AK00100 Hs.41690 desmocollin 3 1.82 1.53 419733 AW362955 Hs.224961 Homo sapiens cDNA FLJ14415 fis, clone HE 1.82 1.00 409267 NM_012453 Hs.52515 transducin (beta)-like 2 1.81 1.57 413341 H78472 Hs.191325 ESTs, Weakly similar to T18967 hypotheti 1.81 2.05 423810 AL132665 Hs.132955 BCL2/adenovirus E1B 19 kD-interacting pro 1.81 1.98 416274 AW160404 Hs.79126 guanine nucleotide binding protein 10 1.80 1.91 400843 NM_003105*: Homo sapiens sortilin-related 1.80 4.88 442187 N23532 Hs.288963 Homo sapiens cDNA: FLJ23034 fis, clone L 1.80 2.61 458285 AW296984 Hs.255595 ESTs, Weakly similar to A46302 PTB-assoc 1.80 2.33 413753 U17760 Hs.75517 laminin, beta 3 (nicein (125 kD), kalinin 1.80 3.17 428004 AA449563 Hs.151393 glutamate-cysteine ligase, catalytic sub 1.80 1.00 401613 Target Exon 1.79 2.66 407173 T64349 gb: yc10d08.s1 Stratagene lung (937210) H 1.79 2.30 443145 AI049671 Hs.307763 EST, Weakly similar to I38022 hypothetic 1.79 2.00 418596 AW976721 Hs.293327 ESTs 1.79 3.92 437374 AL359571 Hs.44054 ninein (GSK3B interacting protein) 1.79 1.24 439569 AW602166 Hs.222399 CEGP1 protein 1.79 2.39 430677 Z26317 Hs.94560 desmoglein 2 1.78 2.02 436749 AA584890 Hs.5302 lectin, galactoside-binding, soluble, 4 1.78 0.96 453016 AW295466 Hs.232051 ESTs, Weakly similar to dJ403A15.3 [H. sa 1.78 2.60 426885 AA393130 Hs.193894 ESTs, Weakly similar to A47582 B-cell gr 1.78 2.47 452848 AI417193 Hs.288912 hypothetical protein FLJ22604 1.78 2.17 412560 R24601 CCR4-NOT transcription complex, subunit 1.78 3.13 411821 BE299339 Hs.72249 three-PDZ containing protein similar to 1.78 1.55 428788 AF082283 Hs.193516 B-cell CLL/lymphoma 10 1.78 2.36 443963 AA878183 Hs.17448 Homo sapiens cDNA FLJ13618 fis, clone PL 1.78 2.20 435479 AF197137 Hs.259737 ATP synthase, H transporting, mitochondr 1.78 2.03 413073 AL038165 Hs.75187 translocase of outer mitochondrial membr 1.77 2.29 442473 W27992 gb: 43d9 Haman retina cDNA randomly prime 1.77 2.93 418060 AA211589 Hs.208047 ESTs 1.77 4.19 400773 NM_003105*: Homo sapiens sortilin-related 1.77 1.76 400175 Eos Control 1.77 2.04 421501 M29971 Hs.1384 O-6-methylguanine-DNA methyltransferase 1.77 2.32 451234 AI914901 Hs.24052 ESTs, Weakly similar to I38022 hypotheti 1.77 2.43 423332 Al091466 Hs.127241 sorting nexin 7 1.76 1.82 423960 AA164516 Hs.136309 SH3-containing protein SH3GLB1 1.76 2.00 450489 AI697990 Hs.346002 ESTs 1.76 3.15 457265 AB023212 Hs.225967 KIAA0995 protein 1.76 2.37 413076 U10564 Hs.75188 wee1 (S. pombe) homolog 1.75 2.18 421948 L42583 Hs.334309 keratin 6A 1.75 1.00 453578 R06875 Hs.81810 ESTs 1.75 3.10 412430 AW675064 Hs.73875 fumarylacetoacetate hydrolase (fumarylac 1.75 2.14 439396 BE562958 Hs.74346 hypothetical protein MGC14353 1.75 1.78 431448 AL137517 Hs.306201 hypothetical protein DKFZp564O1278 1.75 2.36 449538 AI559444 Hs.104679 ESTs 1.75 3.07 453146 AI338952 Hs.32194 ESTs 1.74 2.82 426122 NM_006925 Hs.166975 Splicing factor, arginine/serine-rich 5 1.74 2.88 408989 AW361666 Hs.49500 KIAA0746 protein 1.74 2.07 441715 AI929453 Hs.342655 Homo sapiens cDNA FLJ13289 fis, clone OV 1.74 2.06 412718 X79204 Hs.74520 spinocerebellar ataxia 1 (olivopontocere 1.74 2.46 450798 AW167780 Hs.50438 ESTs 1.74 2.02 445537 AJ245671 Hs.12844 EGF-like-domain, multiple 6 1.73 2.58 400190 Eos Control 1.73 2.40 416309 R84694 Hs.79194 cAMP responsive element binding protein 1.73 1.48 410219 T98226 Hs.171952 occludin 1.73 2.75 419814 AW402478 Hs.93213 BCL2-antagonist/killer 1 1.73 2.70 448625 AW970786 Hs.178470 hypothetical protein FLJ22662 1.73 2.07 422387 AA309996 Hs.148656 ESTs, Weakly similar to T12453 hypotheti 1.73 2.02 417386 AL037228 Hs.82043 D123 gene product 1.73 2.44 405812 Target Exon 1.72 2.94 436270 C03769 Hs.339669 Homo sapiens, clone IMAGE: 3947554, mRNA, 1.72 2.85 409855 AW502461 gb: UI-HF-BR0p-ajv-b-08-0-UI.r1 NIH_MGC_5 1.72 2.63 411442 N25956 Hs.101810 Homo sapiens cDNA FLJ14232 fis, clone NT 1.72 1.88 400846 sortilin-related receptor, L(DLR class) 1.72 1.63 401660 Target Exon 1.72 2.63 402190 C19000835*:gi|10946730|ref|NP_067362.1| 1.72 3.33 439191 AA281177 Hs.41182 Homo sapiens DC47 mRNA, complete cds 1.71 2.17 410444 W73484 Hs.132554 gb: zd54e04.s1 Soares_fetal_heart_NbHH19W 1.71 2.70 430393 BE185030 Hs.241305 estrogen-responsive B box protein 1.71 1.33 446066 AI343931 Hs.149383 ESTs 1.71 2.32 411299 BE409857 Hs.69499 hypothetical protein 1.71 2.92 408246 N55669 Hs.333823 mitochondrial ribosomal protein L13 1.71 2.00 454054 AI336329 Hs.301519 Homo sapiens cDNA FLJ12536 fis, clone NT 1.71 1.93 417381 AF164142 Hs.82042 solute carrier family 23 (nucleobase tra 1.70 3.70 427820 BE222494 Hs.180919 inhibitor of DNA binding 2, dominant neg 1.70 1.60 400750 Target Exon 1.70 2.82 455842 BE145837 gb: MR0-HT0208-101299-202-c07 HT0208 Homo 1.70 2.17 429966 BE081342 Hs.283037 HSPC039 protein 1.70 1.18 418444 AI902899 Hs.85155 butyrate response factor 1 (EGF-response 1.70 2.47 437450 AL390154 Hs.26954 Homo sapiens mRNA; cDNA DKFZp762G123 (fr 1.70 3.03 415738 BE539367 Hs.295953 ESTs, Weakly similar to AF220049 1 uncha 1.70 2.34 405245 Target Exon 1.70 1.99 408483 AA464836 Hs.291079 ESTs, Weakly similar to T27173 hypotheti 1.70 2.05 413611 BE153275 gb: PM0-HT0335-180400-008-e11 HT0335 Homo 1.70 2.05 410190 AW072328 Hs.59728 Homo sapiens mRNA; cDNA DKFZp566C0546 (f 1.69 2.20 434608 AA805443 Hs.179909 hypothetical protein FLJ22995 1.69 2.36 432170 T56887 Hs.18282 KIAA1134 protein 1.69 1.83 448182 AF244137 Hs.20597 host cell factor homolog 1.69 2.11 436293 AI601188 Hs.120910 ESTs 1.69 2.37 448524 AB032948 Hs.21356 hypothetical protein DKFZp762K2015 1.68 2.48 404231 Target Exon 1.68 2.50 453906 AW444952 Hs.257054 ESTs 1.68 2.45 437967 BE277414 Hs.5947 met transforming oncogene (derived from 1.68 1.00 426125 X87241 Hs.166994 FAT tumor suppressor (Drosophila) homolo 1.68 3.51 448813 AF169802 Hs.22142 cytochrome b5 reductase b5R.2 1.68 1.69 429162 AK001250 Hs.197642 hypothetical protein FLJ10388 1.68 3.13 425556 H27225 Hs.9444 hypothetical protein FLJ13114 1.67 2.02 405630 Target Exon 1.67 3.00 421405 AA251944 Hs.104058 CGI-29 protein 1.67 3.25 422640 M37984 Hs.118845 troponin C, slow 1.67 1.23 450857 AA629075 Hs.190090 ESTs 1.67 2.48 451668 Z43948 Hs.326444 cartilage acidic protein 1 1.66 2.55 433821 AW182416 ESTs 1.66 2.65 405595 NM_000721*: Homo sapiens calcium channel, 1.66 2.23 433892 AI929357 Hs.323966 Homo sapiens clone H63 unknown mRNA 1.66 1.97 443558 AA376798 Hs.286122 MDS024 protein 1.66 2.00 412141 AI183838 Hs.48938 hypothetical protein FLJ21802 1.66 2.65 424685 W21223 Hs.151734 nuclear transport factor 2 (placental pr 1.66 2.88 400845 NM_003105*: Homo sapiens sortilin-related 1.66 1.61 447816 NM_007233 Hs.274329 TP53 target gene 1 1.66 2.63 404438 Target Exon 1.66 2.34 451543 AA397651 Hs.301959 proline synthetase co-transcribed (bacte 1.65 2.08 433233 AB040927 Hs.301804 KIAA1494 protein 1.65 3.13 420938 AL049698 Hs.100469 myeloid/lymphoid or mixed-lineage leukem 1.65 1.37 435438 H84421 Hs.4890 ubiquitin-conjugating enzyme E2E 3 (homo 1.65 2.35 431130 NM_006103 Hs.2719 HE4; epididymis-specific, whey-acidic pr 1.65 1.00 433235 AB040929 Hs.35089 contactin 3 (plasmacytoma associated) 1.65 1.44 439632 AW410714 Hs.334437 hypothetical protein MGC4248 1.65 2.35 409324 W76202 Hs.343812 lipoic acid synthetase 1.65 2.00 452207 NM_014517 Hs.28423 upstream binding protein 1 (LBP-1a) 1.65 2.33 423630 AB011132 Hs.129952 KIAA0560 gene product 1.65 2.13 443358 H65417 Hs.17757 pleckstrin homology domain-containing, f 1.65 1.63 427417 AA341061 Hs.177861 CGI-110 protein 1.64 1.28 450353 AI244661 Hs.103296 ESTs,Weakly similar to S65657 alpha-1C- 1.64 1.60 445677 H96577 Hs.6838 ras homolog gene family, member E 1.64 1.91 447503 AA115496 Hs.336898 Homo sapiens, Similar to RlKEN cDNA 1810 1.64 2.04 431234 AL389985 Hs.301637 zinc finger protein 258 1.64 1.53 418032 AW964695 Hs.9436 Homo sapiens, clone MGC: 15763, mRNA, com 1.64 2.05 407796 AA195509 Hs.39733 postsynaptic protein CRIPT 1.64 2.30 446298 AF187813 Hs.14637 kidney-and liver-specific gene 1.64 2.05 439578 AW263124 Hs.315111 nuclear receptor co-repressor/HDAC3 comp 1.64 2.26 429113 D28235 Hs.196384 prostaglandin-endoperoxide synthase 2 (p 1.64 2.10 433646 AA603319 Hs.155195 ESTs 1.64 2.05 407783 AW996872 Hs.172028 a disintegrin and metalloproteinase doma 1.64 1.00 419982 AA252544 Hs.55610 solute carrier family 30 (zinc transport 1.64 2.16 401603 NM_022041*: Homo sapiens giant axonal neu 1.64 2.73 431604 AF175265 Hs.264190 vacuolar protein sorting 35 (yeast homol 1.64 2.75 400788 C6000994*: gi|10435784|dbj|BAB14668.1| (A 1.63 2.04 416221 BE513171 Hs.79086 mitochondrial ribosomal protein L3 1.63 2.64 422491 AA338548 Hs.117546 neuronatin 1.63 0.96 424737 BE301883 Hs.152707 glioblastoma amplified sequence 1.63 3.45 416078 AL034349 Hs.79005 protein tyrosine phosphatase, receptor t 1.63 1.39 403988 C5001831: gi|11056014|ref|NP_067651.1| ac 1.62 2.11 411486 N85785 Hs.181165 eukaryotic translation elongation factor 1.62 2.63 407874 AI766311 Hs.289047 Home sapiens cDNA FLJ14059 fis, clone HE 1.62 2.19 446700 AW206257 Hs.156326 Human DNA sequence from clone RP11-145L2 1.62 3.03 438184 AA779897 Hs.122125 ESTs 1.62 2.79 405502 C7000609*: gi|628012|pir∥A53933 myosin I 1.62 2.55 447050 NM_016314 Hs.17200 STAM-like protein containing SH3 and ITA 1.62 2.48 457961 AA772119 Hs.270721 ESTs, Weakly similar to I38022 hypotheti 1.62 2.30 436774 AW975810 Hs.159054 hypothetical protein FLJ13224 1.62 2.17 414893 AA215295 Hs.77578 ubiquitin specific protease 9, X chromos 1.62 2.03 458660 AI299739 Hs.99601 hypothetical protein FLJ12553 1.62 2.25 405806 Target Exon 1.62 2.15 421205 AL137540 Hs.102541 netrin 4 1.62 1.00 424012 AW368377 Hs.137569 tumor protein 63 kDa with strong homolog 1.62 1.74 427016 AA397525 Hs.191579 ESTs 1.61 2.16 458182 AI147996 Hs.155833 ESTs, Weakly similar to spliceosomal pro 1.61 2.74 451109 F11875 Hs.5534 Homo sapiens cDNA FLJ12961 fis, clone NT 1.61 2.59 414807 AI738616 Hs.77348 hydroxyprostaglandin dehydrogenase 15-(N 1.61 1.78 456508 AA502764 Hs.123469 ESTs, Weakly similar to AF208855 1 BM-01 1.61 2.10 447532 AK000614 Hs.18791 hypothetical protein FLJ20607 1.61 1.75 439944 AA856767 Hs.124623 ESTs 1.61 2.41 414692 H06831 Hs.164557 ESTs, Moderately similar to ALUC_HUMAN ! 1.60 3.05 433187 R53995 Hs.293381 ESTs, Moderately similar to ALU7_HUMAN A 1.60 2.63 446825 BE266822 Hs.344097 filamin A, alpha (actin-binding protein- 1.60 2.43 441166 AA921738 Hs.132473 ESTs 1.60 2.69 425571 AJ007292 Hs.158306 ephrin-A2 1.60 1.49 406836 AW514501 Hs.156110 immunoglobulin kappa constant 1.60 1.08 432374 W68815 Hs.301885 Home sapiens cDNA FLJ11346 fis, clone PL 1.60 1.47 449268 AW369278 Hs.23412 hypothetical protein FLJ20160 1.60 2.89 400772 NM_003105*: Homo sapiens sortilin-related 1.60 2.57 445733 BE295568 Hs.13225 UDP-Gal: betaGlcNAc beta 1,4- galactosylt 1.60 2.03 428172 U09367 Hs.182828 zinc finger protein 136 (clone pHZ-20) 1.60 2.68 421887 AW161450 Hs.109201 CGI-86 protein 1.59 1.39 418127 BE243982 Hs.83532 membrane cofactor protein (CD46, trophob 1.59 1.67 400297 AI127076 Hs.306201 hypothetical protein DKFZp564O1278 1.59 2.19 434938 AW500718 Hs.8115 Homo sapiens, clone MGC: 16169, mRNA, com 1.59 2.26 417924 AU077231 Hs.82932 cyclin D1 (PRAD1: parathyroid adenomatos 1.59 1.76 418067 AI127958 Hs.83393 cystatin E/M 1.59 1.26 427127 AW802282 Hs.22265 pyruvate dehydrogenase phosphatase 1.59 2.25 451938 AI354355 Hs.16697 down-regulator of transcription 1, TBP-b 1.59 2.10 407325 AA291180 Hs.328476 ESTs, Weakly similar to alternatively sp 1.58 2.43 410796 Z44547 Hs.3731 ESTs, Moderately similar to I38022 hypot 1.58 1.26 417343 AA197132 Hs.231581 myosin, heavy polypeptide 1, skeletal mu 1.58 2.84 416643 U62531 Hs.79410 solute carrier family 4, anion exchanger 1.58 1.26 400847 NM_003105*: Homo sapiens sortilin-related 1.58 1.48 436760 AW606927 Hs.5306 hypothetical protein DKFZp586F1122 simil 1.57 1.57 433427 AI816449 Hs.171889 cholinephosphotransferase 1 1.57 1.64 451986 BE246996 Hs.318401 hypothetical protein DKFZp564D1378 1.57 1.83 428901 A1929568 Hs.146668 KIAA1253 protein 1.57 2.23 426028 NM_001110 Hs.172028 a disintegrin and metalloproteinase doma 1.57 3.07 444604 AW32 7695 Hs.11441 chromosome 1 open reading frame 8 1.57 1.86 439686 W40445 Hs.235857 ESTs, Weakly similar to I38022 hypotheti 1.57 3.07 426996 AW968934 Hs.173108 Homo sapiens cDNA: FLJ21897 fis, clone H 1.57 2.01 447343 AA256641 Hs.236894 ESTs, Highly similar to S02392 alpha-2-m 1.57 2.83 418942 AI566004 Hs.141269 Homo sapiens cDNA: FLJ21550 fis, clone C 1.57 1.21 418555 AI417215 Hs.87159 hypothetical protein FLJ12577 1.56 3.08 402368 NM_021155*: Homo sapiens CD209 antigen (C 1.56 2.05 419749 X73608 Hs.93029 sparc/osteonectin, cwcv and kazal-like d 1.56 2.08 404977 Insulin-like growth factor 2 (somatomedi 1.56 5.50 441872 BE567100 Hs.154938 hypothetical protein MDS025 1.56 2.30 415503 U36601 Hs.78473 N-deacetylase/N-sulfotransferase (hepara 1.56 2.56 451743 AW074266 Hs.23071 ESTs 1.56 1.85 423184 NM_004428 Hs.1624 ephrin-A1 1.56 1.41 408041 AW138782 Hs.243607 ESTs 1.56 2.21 416777 AF146760 Hs.79844 DKFZP564M1416 protein 1.56 2.00 428013 AF151020 Hs.181444 hypothetical protein 1.56 1.53 410072 BE384447 Hs.16034 hypothetical protein MGC13186 1.55 1.52 411495 AP000693 Hs.70359 KIAA0136 protein 1.55 2.88 408162 AA993833 Hs.118527 ESTs 1.55 2.70 413350 U02556 Hs.75307 t-complex-associated-testis-expressed 1- 1.55 1.99 422010 AA302049 Hs.31181 Homo sapiens cDNA: FLJ23230 fis, clone C 1.55 1.60 425229 AU076961 Hs.155212 methylmalonyl Coenzyme A mutase 1.55 2.57 425184 BE278288 Hs.155048 Lutheran blood group (Auberger b antigen 1.55 1.45 419011 H56244 Hs.89552 glutathione S-transferase A2 1.55 2.77 417538 AW050865 Hs.275711 hypothetical protein MGC2452 1.55 2.76 409806 AW500960 gb: UI-HF-BP0p-aiy-b-01-0-UI.r1 NIH_MGC_5 1.55 2.45 402737 Target Exon 1.54 2.58 419825 AI754011 Hs.7326 ESTs 1.54 1.00 410001 AB041036 Hs.57771 kallikrein 11 1.54 0.62 407813 AL120247 Hs.40109 KIAA0872 protein 1.54 2.33 415906 AI751357 Hs.288741 Homo sapiens cDNA: FLJ22256 fis, clone H 1.54 2.77 427886 AA417083 Hs.104789 ESTs 1.54 2.60 437018 AA889078 Hs.187033 ESTs 1.54 2.48 415049 N67334 Hs.50158 ESTs 1.54 2.57 422315 U16296 Hs.115176 T-cell lymphoma invasion and metastasis 1.54 2.57 413715 AW851121 Hs.75497 Homo sapiens cDNA: FLJ22139 fis,clone H 1.54 1.98 447144 AI630759 Hs.17481 Homo sapiens clone 24606 mRNA sequence 1.54 2.48 438924 BE535511 transmembrane trafficking protein 1.53 3.08 445166 AI656116 Hs.147451 ESTs 1.53 2.08 414073 AF068293 Hs.75737 pericentriolar material 1 1.53 1.70 402378 Target Exon 1.53 2.83 452316 AA298484 Hs.61265 ESTs, Moderately similar to G786_HUMAN P 1.53 1.60 450374 AA397540 Hs.60293 Homo sapiens clone 122482 unknown mRNA 1.53 3.59 402617 C1003551: gi|6678593|ref|NP_033547.1| win 1.53 2.75 406837 R70292 Hs.156110 immunoglobulin kappa constant 1.53 1.01 410573 AF151057 Hs.64595 aminoadipate-semialdehyde dehydrogenase- 1.53 1.23 426359 AA376409 Hs.1 0862 Homo sapiens cDNA: FLJ23313 fis, clone H 1.53 0.67 434445 AI349306 Hs.11782 ESTs 1.53 2.80 452717 AW160399 Hs.30376 hypothetical protein 1.53 2.01 420465 AL080276 Hs.70488 similar to prokaryotic-type class I pept 1.53 2.25 437404 AA868974 Hs.180992 ESTs 1.53 2.00 459192 AW176180 gb: RC2-BT0214-010999-001-E07 BT0214 Homo 1.52 3.20 446457 AI300580 Hs.345281 ESTs, Moderately similar to ALU1_HUMAN A 1.52 2.35 441466 AW673081 Hs.54828 ESTs 1.52 1.99 421810 AK001718 Hs.108530 hypothetical protein FLJ10856 1.52 2.98 447769 AW873704 Hs.320831 Homo sapiens cDNA FLJ14597 fis, clone NT 1.52 2.47 414882 D79994 Hs.77546 Homo sapiens cDNA: FLJ21983 fis, clone H 1.52 2.55 442169 W21813 Hs.8125 Homo sapiens mRNA; cDNA DKFZp586E1521 (f 1.52 1.31 404349 Target Exon 1.52 2.74 416278 AA356366 Hs.79137 protein-L-isoaspartate (D-aspartate) O-m 1.52 2.93 431846 BE019924 Hs.271580 uroplakin 1B 1.52 1.01 431958 X63629 Hs.2877 cadherin 3, type 1, P-cadherin (placenta 1.52 0.93 442670 BE410050 Hs.11859 hypothetical protein FLJ13188 1.52 2.70 441617 AA581863 Hs.178485 Homo sapiens cDNA FLJ13919 fis, clone Y7 1.52 1.65 440079 AI557284 Hs.6900 ring finger protein 13 1.52 1.76 432831 AI821702 Hs.115959 ESTs, Weakly similar to I38022 hypotheti 1.52 2.13 414320 U13616 Hs.75893 ankyrin 3, node of Ranvier (ankyrin G) 1.52 2.13 442149 AB014550 Hs.8118 KIAA0650 protein 1.52 1.00 457747 AW975000 gb: EST387105 MAGE resequences, MAGN Homo 1.51 2.38 419433 AA814807 Hs.7395 hypothetical protein FLJ23182 1.51 2.50 431812 AA515902 Hs.130650 ESTs 1.51 1.64 415477 NM_002228 Hs.78465 v-jun avian sarcoma virus 17 oncogene ho 1.51 2.62 447580 AI953360 Hs.133487 ESTs 1.51 2.02 416926 H03109 Hs.108920 HT018 protein 1.51 2.22 442755 W57656 Hs.109701 ubiquitin-like 5 1.51 1.34 448694 AA478756 Hs.194477 E3 ubiquitin ligase SMURF2 1.51 2.24 422675 BE018517 Hs.119140 eukaryotic translation initiation factor 1.51 1.49 404397 ENSP00000251675*: KIAA1550 protein (Fragm 1.51 2.18 412927 AA284018 Hs.75063 human immunodeficiency virus type I enha 1.51 1.33 402371 Target Exon 1.51 3.22 431730 AF208856 Hs.268122 hypothetical protein 1.51 1.57 417715 AW969587 Hs.86366 ESTs 1.51 1.59 451117 AA015752 Hs.205173 ESTs 1.50 2.70 434727 H43374 Hs.7890 Homo sapiens mRNA for KIAA1671 protein, 1.50 3.53 442297 NM_006202 Hs.89901 phosphodiesterase 4A, cAMP-specific (dun 1.50 2.24 425883 AL137708 Hs.161031 Homo sapiens mRNA; cDNA DKFZp434K0322 (f 1.50 1.13 452658 N88604 Hs.30212 thyroid receptor interacting protein 15 1.50 1.62 428695 AI355647 Hs.189999 purinergic receptor (family A group 5) 1.50 1.00 438967 H30340 Hs.173705 Homo sapiens cDNA: FLJ22050 fis, clone H 1.50 1.05 419847 AW390601 Hs.184544 Homo sapiens, clone IMAGE: 3355383, mRNA, 1.50 2.53 431369 BE184455 Hs.251754 secretory leukocyte protease inhibitor( 1.49 0.97 433265 AB040971 Hs.35096 KIAA1538 protein 1.49 1.44 408136 AL041135 Hs.42959 KIAA1012 protein 1.49 2.24 455485 AA102287 Hs.26756 hypothetical protein FLJ20896 1.49 2.40 418863 AL135743 Hs.25566 ESTs, Weakly similar to 2004399A chromos 1.49 2.84 405193 C7000789: gi|1943947|gb|AAC48716.1| (U901 1.48 2.20 408948 AW296713 Hs.221441 ESTs 1.48 2.20 426088 AF038007 Hs.166196 ATPase, Class I, type 8B, member 1 1.48 2.24 405932 C15000305: gi|3806122|gb|AAC69198.1| (AF0 1.48 1.48 454034 NM_000691 Hs.575 aldehyde dehydrogenase 3 family, member 1.48 1.16 422355 AW403724 Hs.300697 coagulation factor VII (serum prothrombi 1.48 1.20 428044 AA093322 Hs.301404 RNA binding motif protein 3 1.48 2.38 416166 AW501907 Hs.261734 Homo sapiens cDNA: FLJ22807 fis,clone K 1.48 1.28 430453 BE387060 Hs.3903 Cdc42 effector protein 4; binder of Rho 1.48 2.73 401600 BE247275 U5 snRNP-specific protein, 116 kD 1.48 2.53 432638 AI017717 chromosome 21 open reading frame 15 1.48 2.03 405194 C7000789: gi|1943947|gb|AAC48716.1| (U901 1.48 2.00 416179 R19015 Hs.79067 MAD (mothers against decapentaplegic, Dr 1.48 1.25 450272 AI075170 Hs.20010 ESTs 1.48 2.35 413709 BE158687 gb: CM0-HT0395-280100-169-b09 HT0395 Homo 1.48 2.08 442607 AA507576 Hs.288361 Homo sapiens cDNA: FLJ22696 fis, clone H 1.48 1.00 410418 D31382 Hs.63325 transmembrane protease, serine 4 1.47 1.91 436566 BE545586 Hs.278712 Homo sapiens cDNA FLJ11074 fis, clone PL 1.47 2.26 404769 NM_007037*: Homo sapiens a disintegrin-li 1.47 1.24 420132 BE079847 Hs.301914 gb: RC6-BT0627-220300-012-D06 BT0627 Homo 1.47 2.00 448356 AL120837 Hs.20993 high-glucose-regulated protein 8 1.47 2.90 421628 AL121317 Hs.106210 hypothetical protein FLJ10813 1.47 4.08 449059 AK000566 Hs.98135 hypothetical protein FLJ20559 1.47 3.13 449029 N28989 Hs.22891 solute carrier family 7 (cationic amino 1.47 1.06 422119 AI277829 Hs.111862 KIAA0590 gene product 1.47 1.51 438713 H16902 ESTs 1.47 2.39 418248 NM_005000 Hs.83916 NM_005000*: Homo sapiens NADH dehydrogena 1.47 1.00 419125 AA642452 Hs.130881 B-cell CLL/lymphoma 11A (zinc finger pro 1.46 2.20 420548 AA278246 Hs.920 ESTs 1.46 2.13 424258 AA433848 Hs.107882 hypothetical protein FLJ10659 1.46 1.98 414683 S78296 Hs.76888 hypothetical protein MGC12702 1.46 1.45 427045 H86504 Hs.173328 protein phosphatase 2, regulatory subuni 1.46 2.31 446646 BE552004 Hs.26192 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.46 1.30 427257 AI026805 Hs.97726 ESTs 1.46 2.48 422971 AI879223 Hs.145409 RAB, member of RAS oncogene family-like 1.46 1.05 451334 AI122691 Hs.13268 ESTs 1.46 2.12 403326 C2000428*: gi|7705383|ref|NP_057536.1| GC 1.46 2.40 453827 AF201948 Hs.35660 BUP protein 1.46 1.65 423599 AI805664 Hs.31731 peroxiredoxin 5 1.46 1.56 410691 AW239226 Hs.65450 reticulon 4 1.46 1.49 430688 AL022101 Hs.104991 hypothetical protein similar to preferen 1.46 2.45 438083 AI949940 Hs.121924 ESTs 1.46 2.00 430713 AA351647 Hs.2642 eukaryotic translation elongation factor 1.45 1.60 437325 AF142481 Hs.5548 f-box and leucine-rich repeat protein 5 1.45 1.26 403342 Target Exon 1.45 2.21 438808 M73980 Hs.129053 Homo sapiens NOTCH 1 (N1) mRNA, complete 1.45 2.40 446493 AK001389 Hs.15144 hypothetical protein DKFZp564O043 1.45 3.65 414895 AW894856 Hs.116278 Homo sapiens cDNA FLJ13571 fis, clone PL 1.44 2.71 442072 AI740832 Hs.12311 Homo sapiens clone 23570 mRNA sequence 1.44 1.08 425723 NM_014420 Hs.159311 dickkopf (Xenopus laevis) homolog 4 1.44 2.24 432901 AI554929 Hs.281866 ATPase, H transporting, lysosomal (vacuo 1.44 1.63 412210 AW901492 gb: RC0-NN1012-270300-031-h10 NN1012 Homo 1.44 2.15 421685 AF189723 Hs.106778 ATPase, Ca transporting, type 2C, member 1.44 1.83 428115 AB023194 Hs.300855 KIAA0977 protein 1.44 1.31 442358 BE567985 Hs.18585 ESTs, Moderately similar to ALU4_HUMAN A 1.44 2.47 414685 L39874 Hs.76894 dCMP deaminase 1.44 1.25 413798 AA336708 Hs.75546 capping protein (actin filament) muscle 1.44 1.26 410937 AA218564 Hs.67052 vacuolar protein sorting 26 (yeast homol 1.44 1.41 400397 AJ270770 transcription factor 7-like 2 (T-cell sp 1.44 3.43 405902 Target Exon 1.44 2.65 433976 AA620987 Hs.190268 ESTs 1.44 2.46 405376 Target Exon 1.44 2.28 436086 Z43133 Hs.9961 Home sapiens cDNA: FLJ21954 fis, clone H 1.44 1.34 418182 AW016405 Hs.16648 ESTs 1.44 2.35 430307 BE513442 Hs.238944 hypothetical protein FLJ10631 1.43 1.55 434924 AA443164 Hs.23259 hypothetical protein FLJ13433 1.43 2.05 417821 BE245149 Hs.82643 protein tyrosine kinase 9 1.43 2.15 404744 Target Exon 1.43 1.99 405418 Target Exon 1.43 2.83 402869 Target Exon 1.43 2.40 451608 AA384525 Hs.26745 hypothetical protein 1.43 1.22 424099 AF071202 Hs.139336 ATP-binding cassette, sub-family C (CFTR 1.43 2.45 401041 C11000425: gi|4507721|ref|NP_003310.1| ti 1.43 2.90 417839 AI815732 Hs.82712 fragile X mental retardation, autosomal 1.43 2.84 409245 AA361037 Hs.288036 tRNA isopentenylpyrophosphate transferas 1.43 2.65 447808 NM_007265 Hs.19673 suppressor of S. cerevisiae gcr2 1.43 2.00 456492 AA330047 Hs.191187 ESTs 1.43 2.73 449244 AW859979 Hs.32204 ESTs 1.42 1.57 413094 H24184 Hs.25413 TOLLIP protein 1.42 1.33 452407 AA682909 Hs.29353 brain-specific protein p25 alpha 1.42 2.50 407674 AW064061 Hs.279145 ESTs 1.42 2.35 441297 AW403084 Hs.7766 ubiquitin-conjugating enzyme E2E 1 (homo 1.42 2.20 421932 W51778 Hs.323949 kangai 1 (suppression of tumorigenicity 1.42 1.48 426348 BE466586 Hs.17433 hypothetical protein FLJ20967 1.42 1.83 432554 AI479813 Hs.278411 NCK-associated protein 1 1.42 2.46 431735 AW977724 Hs.75968 thymosin, beta 4, X chromosome 1.42 1.30 429953 NM_004376 Hs.226581 COX15 (yeast) homolog, cytochrome c oxid 1.42 1.50 444037 AV647686 Hs.42733 CHMP1.5 protein 1.42 1.38 402144 Target Exon 1.42 2.38 456758 AA325170 Hs.224627 ESTs, Weakly similar to FAHUAA alpha-act 1.42 2.23 452322 BE566343 Hs.28988 glutaredoxin (thioltransferase) 1.42 2.18 426863 AL137657 Hs.172803 hypothetical protein MGC10327 1.41 1.38 410684 AA088500 Hs.170298 ESTs 1.41 1.28 401784 NM_002280*: Homo sapiens keratin, hair, a 1.41 1.37 427523 BE242779 Hs.179526 upregulated by 1,25-dihydroxyvitamin D-3 1.41 1.32 449269 AI564682 Hs.175870 ESTs 1.41 1.37 406467 Target Exon 1.41 1.80 444339 T96555 Hs.31562 ESTs 1.41 2.94 431563 AI027643 Hs.120912 ESTs 1.41 1.41 413343 BE392026 Hs.334346 hypothetical protein MGC13045 1.41 1.21 447537 AW295072 Hs.346408 ESTs, Weakly similar to AF193556 1 sacsi 1.41 2.07 428211 AA424211 Hs.183176 ESTs 1.41 1.25 406248 Target Exon 1.41 2.40 437412 BE069288 Hs.34744 Homo sapiens mRNA; cDNA DKFZp547C136 (fr 1.41 1.39 414653 M24486 Hs.76768 procollagen-proline, 2-oxoglutarate 4-di 1.41 1.33 403885 Target Exon 1.41 2.58 439459 AF086279 Hs.58013 ESTs 1.41 2.08 419075 T84266 Hs.123927 ESTs 1.41 2.84 405022 Target Exon 1.40 2.55 401346 BE041451 hypothetical protein 1.40 2.38 415660 AI909007 Hs.78563 ubiquitin-conjugating enzyme E2G 1 (homo 1.40 2.38 448023 AI693299 Hs.170388 ESTs 1.40 2.38 435962 AA702820 Hs.291294 ESTs 1.40 2.10 432480 AA205475 Hs.275865 ribosomal protein S18 1.40 1.37 414309 AK000639 Hs.758840 DFZP586A011 protein 1.40 1.18 440256 U23841 Hs.18851 hypothetical protein FLJ10875 1.40 1.91 413809 L25851 Hs.851 integrin, alpha E (antigen CD103, human 1.40 2.80 408176 AK001553 Hs.43436 adenylate kinase 3 alpha like 1.40 2.73 433960 AW629188 Hs.188929 ESTs 1.40 1.99 404178 C6001430*: gi|4503521|ref|NP_001559.1| mu 1.40 2.83 402449 Target Exon 1.40 1.51 455604 BE011183 gb: PM3-2N0218-100500-003-d09 BN0218 Homo 1.40 2.30 429221 AI821060 Hs.198271 Target CAT 1.40 1.22 422122 AA383642 Hs.111894 lysosomal-associated protein transmembra 1.40 1.42 406231 Target Exon 1.40 2.60 405879 Target Exon 1.40 2.73 450936 AI033745 gb: ow23a10.x1 Soares_parathyroid_tumor_N 1.40 1.13 403381 ENSP00000231844*: Ecotropic virus integra 1.39 6.03 453258 AW293134 Hs.32597 ring finger protein (C3H2C3 type) 6 1.39 3.20 448261 BE244072 Hs.20815 macrophage erythroblast attacher 1.39 1.33 427666 AI791495 Hs.180142 calmodulin-like skin protein (CLSP) 1.39 2.30 413859 AW992356 Hs.8364 Homo sapiens pyruvate dehydrogenase kina 1.39 1.53 407704 BE315072 Hs.78768 malignant cell expression-enhanced gene/ 1.39 1.34 430138 AA936296 Hs.234265 DKFZP586G011 protein 1.39 2.38 432841 M93425 Hs.62 protein tyrosine phosphatase, non-recept 1.39 2.88 444051 N48373 Hs.10247 activated leucocyte cell adhesion molecu 1.39 1.34 440704 M69241 Hs.162 insulin-like growth factor binding prote 1.39 1.61 450092 AW139606 Hs.221057 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.39 2.78 400275 NM_006513*: Homo sapiens seryl-tRNA synth 1.39 2.03 403725 Target Exon 1.39 2.03 443211 AI128388 Hs.143655 ESTs 1.39 1.83 421510 AK000919 Hs.105191 hypothetical protein FLJ10057 1.39 2.83 430071 AA355986 Hs.232068 transcription factor 8 (represses interl 1.38 3.54 451545 AI802128 Hs.208647 ESTs 1.38 2.21 439897 NM_015310 Hs.6763 KIAA0942 protein 1.38 3.65 423872 AB020316 Hs.134015 uronyl 2-sulfotransferase 1.38 1.00 410344 AW978436 Hs.62515 KIAA0494 gene product 1.38 2.25 404439 ENSP00000067222*: Mitochondrial 28S ribos 1.38 2.25 448581 NM_002709 Hs.21537 protein phosphatase 1, catalytic subunit 1.38 1.47 408569 BE066047 Hs.86412 chromosome 9 open reading frame 5 1.38 1.27 447643 H10767 Hs.238465 nGAP-like protein 1.38 1.22 401593 Target Exon 1.38 2.58 403807 NM_031889: Homo sapiens enamelin (ENAM), 1.38 2.38 406356 N47812 CGI-35 protein 1.38 2.25 401886 NM_021783: Homo sapiens XEDAR (XEDAR), mR 1.38 2.00 421110 AJ250717 Hs.1355 cathepsin E 1.38 8.93 427449 AW946384 Hs.178112 DNA segment single copy probe LNS-CAI/L 1.38 1.44 427451 AI690916 Hs.178137 transducer of ERBB2, 1 1.38 2.81 440681 AW449696 Hs.166547 ESTs 1.38 2.95 419590 AF005043 Hs.91390 poly (ADP-ribose) glycohydrolase 1.38 2.10 446044 H67567 Hs.13572 calcium modulating ligand 1.37 2.62 400967 Target Exon 1.37 3.12 414506 AF075337 Hs.76293 thymosin, beta 10 1.37 1.18 402599 NM_021186*: Homo sapiens zona pellucida g 1.37 2.68 422932 AI191813 Hs.308220 ESTs 1.37 2.38 433889 AK002082 Hs.3623 hypothetical protein FLJ11220 1.37 2.23 429802 H09548 Hs.5367 ESTs, Weakly similar to I38022 hypotheti 1.37 2.25 443856 AK000574 Hs.9908 nitrogen fixation cluster-like 1.37 1.28 453489 AA300067 Hs.33032 hypothetical protein DKFZp434N185 1.37 2.15 424670 W61215 Hs.116651 epithelial V-like antigen 1 1.37 1.66 428995 AW004975 Hs.194716 MAD (mothers against decapentaplegic, Dr 1.37 1.33 441551 AA318224 Hs.296141 ESTs 1.37 2.95 450528 NM_014072 Hs.25063 PRO0461 protein 1.37 1.19 427605 NM_000997 Hs.337445 ribosomal protein L37 1.37 1.31 459237 AA031675 Hs.31917 Homo sapiens, clone MGC: 9658, mRNA, comp 1.37 2.50 413691 AB023173 Hs.75478 ATPase, Class VI, type 11B 1.37 1.31 404906 NM_025213: Homo sapiens spectrin, beta, n 1.36 3.08 436246 AW450963 Hs.119991 ESTs 1.36 1.00 441478 AA350018 Hs.301342 hypothetical protein MGC4342 1.36 1.43 419715 AF070523 Hs.92384 vitamin A responsive; cytoskeleton relat 1.36 1.28 426251 M24283 Hs.168383 intercellular adhesion molecule 1 (CD54) 1.36 2.16 400129 Eos Control 1.36 2.03 450447 AF212223 Hs.25010 hypothetical protein P15-2 1.36 2.13 434697 AL133033 Hs.4084 KIAA1025 protein 1.36 2.01 430308 BE540865 Hs.238990 cyclin-dependent kinase inhibitor 1B (p2 1.36 2.03 434767 AF153201 C2H2 (Kruppel-type) zinc finger protein 1.36 2.87 459729 AL037285 Hs.289848 EST, Weakly similar to ALU4_HUMAN ALU SU 1.36 1.27 426653 AA530892 Hs.171695 deal specificity phosphatase 1 1.35 2.20 408912 AB011084 Hs.48924 KIAA0512 gene product; ALEX2 1.35 2.68 409844 AW502336 gb: UI-HF-BR0p-aka-b-05-0-UI.r1 NIH_MGC_5 1.35 2.29 402517 Target Exon 1.35 2.10 447042 AB035863 Hs.182217 succinate-CoA ligase, ADP-forming, beta 1.35 1.25 405000 Target Exon 1.35 2.32 452065 AK000360 Hs.27721 Wolf-Hirschhorn syndrome candidate 1-lik 1.35 2.36 404666 C9000748: gi|8324209|gb|AAB34384.2| (S775 1.35 2.55 451081 AI078645 Hs.431 murine leukemia viral (bmi-1) oncogene h 1.35 1.70 427979 BE379776 Hs.181309 proteasome (prosome, macropain) subunit, 1.35 2.23 435825 R16702 Hs.91147 ESTs 1.35 2.39 426469 BE297886 Hs.293970 methylmalonate-semialdehyde dehydrogenas 1.35 1.40 447002 BE242866 Hs.16933 HepA-related protein 1.34 2.88 410946 AW811502 gb: QV2-ST0145-061299-015-b04 ST0145 Homo 1.34 2.02 454383 AW500332 Hs.11114 hypothetical protein dJ1181N3.1 1.34 2.13 440512 AA887845 Hs.19673 suppressor of S. cerevisiae gcr2 1.34 2.05 409865 AW502208 gb: UI-HF-BR0p-aju-e-09-0-UI.r1 NIH_MGC_5 1.34 2.63 447390 X95384 Hs.18426 translational inhibitor protein p14.5 1.34 1.00 450293 N36754 Hs.171118 hypothetical protein FLJ00026 1.34 2.45 445831 NM_006055 Hs.13351 LanC (bacterial lantibiotic synthetase c 1.34 1.60 418610 AW245993 Hs.223394 hypothetical protein MGC2742 1.34 1.39 441946 AW298716 Hs.120775 ESTs 1.34 2.30 446192 H49944 Hs.14231 selenoprotein W, 1 1.34 1.17 416285 BE537973 Hs.48617 Homo sapiens cDNA FLJ12540 fis, clone NT 1.34 2.22 425590 AI954686 Hs.158321 beaded filament structural protein 2, ph 1.34 2.50 407498 U28131 gb: Human HMGI-C chimeric transcript mRNA 1.34 2.13 441331 AI216764 Hs.149971 ESTs, Moderately similar to ALUB_HUMAN! 1.34 2.05 411789 AF245505 Hs.72157 Adlican 1.34 1.27 420542 NM_000505 Hs.1321 coagulation factor XII (Hageman factor) 1.33 1.25 413892 AI878921 Hs.75607 myristoylated alanine-rich protein kinas 1.33 1.41 439750 AL359053 Hs.57664 Homo sapiens mRNA full length insert cDN 1.33 1.99 414861 AL119396 Hs.77508 glutamate dehydrogenase 1 1.33 1.66 421687 AL035306 Hs.106823 hypothetical protein MGC14797 1.33 2.18 410846 AW807057 gb: MR4-ST0062-031199-018-b03 ST0062 Homo 1.33 2.07 443937 R66571 Hs.24601 ESTs 1.33 2.02 432360 BE045243 Hs.274416 Target CAT 1.33 1.12 443119 AA312264 Hs.7980 hypothetical protein MGC12966 1.33 2.68 438464 AA669735 Hs.324743 protein phosphatase 4 regulatory subunit 1.33 1.99 401371 ENSP00000198192*: BA438F9.1 (novel protei 1.33 1.10 405443 Target Exon 1.33 2.11 453764 BE008180 Hs.282846 Homo sapiens cDNA FLJ14353 fis, clone Y7 1.33 2.88 424924 AL039103 Hs.153834 pumilio (Drosophila) homolog 1 1.33 1.24 453555 N23574 Hs.123649 ESTs, Moderately similar to ALU7_HUMAN A 1.33 2.23 404343 C7002191*: gi|5053028|gb|AAD38811.1|AF155 1.33 1.04 412383 AW947577 gb: RC0-MT0004-140300-031-b09 MT0004 Homo 1.33 2.06 404250 Target Exon 1.33 2.53 413899 AF083892 Hs.75608 tight junction protein 2 (zona occludens 1.33 2.81 422716 AI702835 Hs.124475 ESTs, Weakly similar to YEF4_YEAST HYPOT 1.33 2.30 448862 AI351979 Hs.152717 hypothetical protein FLJ13725 1.33 1.08 409540 AW409569 gb: fh01e09.x1 NIH_MGC_17 Homo sapiens cD 1.33 2.18 431186 NM_012249 Hs.250697 ras-like protein 1.32 1.39 402754 NM_022469*: Homo sapiens hypothetical pro 1.32 1.16 420798 W93774 Hs.99936 keratin 10 (epidermolytic hyperkeratosis 1.32 2.02 459710 AI701596 Hs.121592 ESTs 1.32 2.70 435192 AK000739 Hs.4835 eukaryotic translation initiation factor 1.32 2.22 401383 Target Exon 1.32 2.18 453394 AW960474 Hs.40289 ESTs 1.32 2.20 421820 AW662990 Hs.294133 heme-binding protein 1.32 1.24 444047 AI097452 Hs.135095 ESTs 1.32 2.95 440860 R10482 Hs.132876 ESTs 1.32 2.83 425808 AA364109 Hs.177990 ESTs 1.32 2.11 456558 BE410992 Hs.258730 heme-regulated initiation factor 2-alpha 1.32 2.05 447015 AB033029 Hs.16953 KIAA1203 protein 1.32 1.30 414015 AA340987 Hs.75693 prolylcarboxypeptidase (angiotensinase C 1.32 1.39 414843 BE386038 Hs.77492 heterogeneous nuclear ribonucleoprotein 1.32 1.26 424058 AL121516 Hs.138617 thyroid hormone receptor interactor 12 1.32 2.01 401196 Target Exon 1.32 2.13 450147 AW373713 Hs.146324 CGI-145 protein 1.32 1.32 422699 BE410590 Hs.119257 ems1 sequence (mammary tumor and squamou 1.32 1.33 405172 Target Exon 1.32 2.11 434087 AF116675 Hs.334476 hypothetical protein PRO1942 1.32 2.30 416720 H05435 Hs.11110 hypothetical protein MGC2508 1.32 2.18 426621 NM_001329 Hs.171391 C-terminal binding protein 2 1.32 1.53 442685 AB033017 Hs.8594 KIAA1191 protein 1.32 1.43 443879 Z28462 Hs.9927 Homo sapiens mRNA; cDNA DKFZp564D156 (fr 1.31 2.24 405180 NM_002649 phosphoinositide-3-kinase, catalytic, ga 1.31 1.36 417365 D50683 Hs.82028 transforming growth factor, beta recepto 1.31 0.98 402087 Target Exon 1.31 1.31 429323 NM_001649 Hs.2391 apical protein, Xenopus laevis-like 1.31 2.05 409935 AW511413 Hs.278025 ESTs 1.31 1.20 430235 BE268048 Hs.236494 RAB10, member RAS oncogene family 1.31 1.31 400172 Eos Control 1.31 1.05 421742 AW970004 Hs.107528 androgen induced protein 1.31 1.79 404273 Target Exon 1.31 2.35 416204 AW972270 Hs.144054 ESTs 1.31 2.15 435076 AW298113 Hs.92909 SON DNA binding protein 1.31 2.05 452497 AA732153 Hs.27865 Homo sapiens cDNA: FLJ21333 fis, clone C 1.30 1.57 404596 Target Exon 1.30 2.23 419080 AW150835 Hs.18878 hypothetical protein FLJ21620 1.30 1.15 427195 W27230 Hs.173912 eukaryotic translation initiation factor 1.30 1.34 438129 AA778647 gb: af87d03.s1 Soares_testis_NHT Homo sap 1.30 2.55 402138 Target Exon 1.30 2.09 404029 NM_018936*: Homo sapiens protocadherin be 1.30 2.83 402731 AL042818 E3 ubiquitin ligase SMURF1 1.30 3.32 458766 AW183618 Hs.55610 solute carrier family 30 (zinc transport 1.30 1.56 434585 AW451715 Hs.184075 ESTs, Weakly similar to ALU1_HUMAN ALU S 1.30 2.73 417219 AW973473 Hs.220936 ESTs 1.30 2.45 428125 AA393071 Hs.182579 leucine aminopeptidase 1.30 2.00 416188 BE157260 Hs.79070 v-myc avian myelocytomatosis viral oncog 1.30 1.00 444681 AJ243937 Hs.288316 chromosome 6 open reading frame 9 1.30 0.94 406621 X57809 Hs.181125 immunoglobulin lambda locus 1.29 1.02 436663 AW410458 Hs.5258 chromosome 11 open reading frame2 1.29 1.20 417250 N58241 Hs.332115 ESTs 1.29 3.43 434978 AA321238 Hs.4310 eukaryotic translation initiation factor 1.29 1.91 448079 R76981 thyroid hormone receptor-associated prot 1.29 2.01 450626 AW190989 Hs.1508 insulin-degrading enzyme 1.29 2.09 456059 BE543127 Hs.336948 Homo sapiens, clone IMAGE: 3530891, mRNA, 1.29 2.23 417809 H75797 Hs.233550 zinc finger protein 208 1.29 2.20 454771 AW819939 Hs.273629 ESTs 1.29 2.10 413895 BE178160 gb: RC3-HT0600-060400-022-h10 HT0600 Homo 1.29 2.08 404649 Target Exon 1.29 1.32 440676 NM_004987 Hs.112378 LIM and senescent cell antigen-like doma 1.29 2.08 405891 Target Exon 1.29 2.00 418965 AI002238 Hs.11482 splicing factor, arginine/serine-rich 11 1.29 2.41 412824 AW958075 Hs.11261 small proline-rich protein 2A 1.29 1.27 420037 BE299598 Hs.135569 hypothetical protein FLJ14708 1.29 1.23 459221 BE246522 Hs.306121 leukocyte receptor cluster (LRC) encoded 1.28 2.48 458651 AW612481 Hs.104105 ESTs 1.28 2.35 422984 W28614 chorionic somatomammotropin hormone 1 (p 1.28 1.37 459365 BE067754 gb: MR4-BT0358-140400-006-g10 BT0358 Homo 1.28 1.06 418254 AA732511 Hs.86650 ESTs 1.28 2.38 402474 NM_004079: Homo sapiens cathepsin S (CTSS 1.28 1.99 448456 AI521830 Hs.171050 ESTs 1.28 2.18 450098 W27249 Hs.8109 hypothetical protein FLJ21080 1.28 1.68 405053 Target Exon 1.28 3.23 428915 AI041278 Hs.87908 Snf2-related CBP activator protein 1.28 4.25 443721 AW450451 Hs.266355 ESTs 1.28 1.15 452047 N35953 Hs.43510 ESTs, Weakly similar to BOX B BINDING FA 1.28 2.30 440213 AW246253 Hs.7043 succinate-CoA ligase, GDP-forming, alpha 1.28 1.19 452900 AA626794 prothymosin, alpha (gene sequence 28) 1.28 1.27 418721 NM_002731 Hs.87773 protein kinase, cAMP-dependent, catalyti 1.28 2.76 458911 AA373131 Hs.24322 ATPase, H transporting, lysosomal (vacuo 1.28 1.21 444250 R40815 Hs.12396 ESTs, Weakly similar to 2004399A chromos 1.28 2.43 431631 AA548906 Hs.122244 ESTs 1.27 1.51 447966 AA340605 Hs.105887 ESTs, Weakly similar to Homolog of rat Z 1.27 3.08 430316 NM_000875 Hs.239176 insulin-like growth factor 1 receptor 1.27 1.37 416272 AA178882 gb: zp38b09.r1 Stratagene muscle 937209 H 1.27 2.00 437456 AL047045 Hs.60293 Homo sapiens clone 122482 unknown mRNA 1.27 3.18 456327 H68741 Hs.38774 ESTs 1.27 2.35 403349 NM_001406 ephrin-B3 1.27 2.28 428821 H91282 Hs.286232 Homo sapiens cDNA: FLJ23190 fis, clone L 1.27 2.13 454555 AW807095 gb: MR4-ST0062-040100-024-e02 ST0062 Homo 1.27 2.05 406872 AI760903 gb: wi09h08.x1 NCI_CGAP_CLL1 Homo sapiens 1.27 1.44 401720 NM_014587*: Homo sapiens SRY (sex determi 1.27 2.07 400082 Eos Control 1.27 1.26 420183 W92885 Hs.143408 ESTs 1.27 2.24 411579 AC005258 Hs.70830 U6 snRNA-associated Sm-like protein LSm7 1.27 1.17 402191 NM_021733*: Homo sapiens testis-specific 1.27 2.44 457118 AI245525 Hs.182469 Homo sapiens mRNA; cDNA DKFZp564K1972 (f 1.27 2.17 408576 NM_003542 Hs.46423 H4 histone family, member G 1.27 2.78 452826 BE245286 Hs.301636 peroxisomal biogenesis factor 6 1.27 3.15 414909 R80316 Hs.132569 PP2135 protein 1.27 1.37 416114 AI695549 Hs.183868 glucuronidase, beta 1.26 2.48 455476 AW948172 gb: RC0-MT0013-280300-021-b06 MT0013 Homo 1.26 2.18 445926 AF054284 Hs.334826 splicing factor 3b, subunit 1, 155 kD 1.26 1.35 432647 AI807481 Hs.278581 fibroblast growth factor receptor 2 (bac 1.26 1.16 405436 Target Exon 1.26 2.38 406140 Target Exon 1.26 3.20 426201 AW182614 Hs.128499 ESTs 1.26 1.17 433334 AI927208 Hs.231958 matrix metalloproteinase 28 1.26 2.30 423262 NM_005479 Hs.126057 frequently rearranged in advanced T-cell 1.26 2.61 422929 AA356694 Hs.94011 ESTs, Weakly similar to MGB4_HUMAN MELAN 1.26 2.11 445605 AI906088 Hs.87159 hypothetical protein FLJ12577 1.26 3.11 425050 BE391854 Hs.7970 gb: 601285394F1 NIH_MGC_44 Homo sapiens c 1.26 2.18 420539 AA282735 Hs.44004 AD031 protein 1.26 2.03 437352 AL353957 Hs.284181 hypothetical protein DKFZp434P0531 1.25 1.19 456535 AA305079 Hs.1342 cytochrome c oxidase subunit Vb 1.25 1.18 434202 BE382411 Hs.3764 guanylate kinase 1 1.25 1.14 439528 BE613180 Hs.288368 Homo sapiens cDNA: FLJ21314 fis, clone C 1.25 2.12 400178 Eos Control 1.25 2.15 430023 AA158243 Hs.227729 FK506-binding protein 2 (13 kD) 1.25 1.20 412841 AI751157 Hs.101395 hypothetical protein MGC11352 1.25 1.39 425655 BE614551 Hs.738 ribosomal protein L14 1.25 1.22 449636 AI656608 Hs.281328 ESTs, Weakly similar to T00378 KIAA0641 1.25 3.00 418406 X73501 Hs.84905 cytokeratin 20 1.24 2.11 414570 Y00285 Hs.76473 insulin-like growth factor 2 receptor 1.24 1.14 436967 AA761729 Hs.136705 ESTs 1.24 2.53 457216 AA452554 Hs.283697 ESTs, Weakly similar to A41796 neural re 1.24 2.18 418414 J04977 Hs.84981 X-ray repair complementing defective rep 1.24 1.35 423217 NM_000094 Hs.1640 collagen, type VII, alpha 1 (epidermolys 1.24 0.92 421733 AL119671 Hs.1420 fibroblast growth factor receptor 3 (ach 1.24 2.71 402329 NM_006505*: Homo sapiens poliovirus recep 1.24 1.13 447525 AF151031 Hs.300631 hypothetical protein 1.24 1.07 445939 BE018658 Hs.141003 Homo sapiens cDNA: FLJ21691 fis, clone C 1.24 2.23 421936 AB040884 Hs.109694 KIAA1451 protein 1.24 2.15 433681 AI004377 Hs.200360 Homo sapiens cDNA FLJ13027 fis, clone NT 1.24 2.15 426717 N90977 Hs.49690 Homo sapiens mRNA; cDNA DKFZp434D2328 (f 1.24 2.14 404751 T70445 ribosomal protein L9 1.24 1.30 411456 AW847588 gb: IL3-CT0213-161299-038-G09 CT0213 Homo 1.24 2.35 425417 AF098948 Hs.157113 coenzyme Q, 7 (rat, yeast) homolog 1.24 2.88 434508 AI648601 Hs.118012 ESTs 1.24 2.03 428284 AA535762 Hs.183435 NM_004545: Homo sapiens NADH dehydrogenas 1.24 1.59 418597 AK001678 Hs.86337 similar to DNA-directed RNA polymerase I 1.24 2.27 414191 AW250089 Hs.75807 PDZ and LIM domain 1 (elfin) 1.24 1.53 449210 AI635363 Hs.345517 ESTs 1.24 2.18 439551 W72062 Hs.11112 ESTs 1.24 2.13 426244 AI064808 Hs.168289 saccinate dehydrogenase complex, subunit 1.23 1.06 453635 BE148082 Hs.24724 MFH-amplified sequences with leucine-ric 1.23 1.34 429617 X89984 Hs.211563 B-cell CLL/lymphoma 7A 1.23 2.27 434943 AI929819 Hs.92909 chromosome 21 open reading frame 50 1.23 2.10 417010 NM_006225 Hs.80776 phospholipase C, delta 1 1.23 1.21 426508 W23184 Hs.170171 glutamate-ammonia ligase (glatamine synt 1.23 1.37 434055 AF168712 Hs.3726 x 003 protein 1.23 1.58 438363 AI886351 Hs.22353 hypothetical protein FLJ21952 1.23 2.44 450937 R49131 Hs.26267 ATP-dependant interferon response protei 1.23 2.28 407018 U49869 NM_018955: Homo sapiens ubiquitin B (UBB) 1.23 1.44 444981 AW855398 Hs.12210 hypothetical protein FLJ13732 similar to 1.23 1.19 440112 AA099014 Hs.231029 Homo sapiens, clone MGC: 15961, mRNA, com 1.22 2.07 426672 AW270555 Hs.171774 hypothetical protein 1.22 1.16 404956 C1003210*: gi|6912582|ref|NP_036524.1| pe 1.22 2.18 435088 NM_000481 Hs.102 aminomethyltransferase (glycine cleavage 1.22 1.08 438588 AW274454 Hs.6318 peroxisomal short-chain alcohol dehydrog 1.22 1.02 434454 AF217798 Hs.3850 LIS1-interacting protein NUDEL; endoolig 1.22 1.27 425689 W16480 Hs.24283 ESTs, Moderately similar to reduced expr 1.22 2.52 428755 D87454 Hs.192966 KIAA0265 protein 1.22 1.16 420685 AA279362 gb: zs84d04.r1 NCI_CGAP_GCB1 Homo sapiens 1.22 2.75 458991 AI743502 gb: wf63h12.x2 Soares_NFL_T_GBC_S1 Homo s 1.22 2.39 414825 X06370 Hs.77432 epidermal growth factor receptor (avian 1.22 1.00 434023 AI277883 Hs.146141 ESTs 1.22 2.12 430801 AI580935 Hs.105698 ESTs 1.22 2.53 414880 AW247305 Hs.119140 eukaryotic translation initiation factor 1.21 1.16 454144 BE280478 Hs.182695 hypothetical protein MGC3243 1.21 1.04 404790 C12001707*: gi|7305215|ref|NP_038599.1| k 1.21 2.05 403943 C5000355: gi|4503225|ref|NP_000765.1| cyt 1.21 2.05 400201 NM_006156*: Homo sapiens neural precursor 1.21 1.35 421005 AW293089 Hs.33263 ESTs 1.21 2.02 414774 X02419 Hs.77274 plasminogen activator, urokinase 1.21 1.11 400789 C11001367*: gi|1076205|pir∥S50754 hypoth 1.21 1.06 412853 M34175 Hs.74626 adaptor-related protein complex 2, beta 1.21 1.24 449709 BE410592 Hs.23918 hypothetical protein PP5395 1.20 1.27 413726 AJ278465 Hs.75510 annexin A11 1.20 1.14 428485 NM_002950 Hs.2280 ribophorin I 1.20 1.24 405163 C5000561*: gi|7513700|pir∥T14151 Inv pro 1.20 1.11 415887 NM_003375 Hs.78902 voltage-dependent anion channel 2 1.20 1.16 434468 N29309 Hs.39288 ESTs 1.20 3.20 446843 AW135925 Hs.98798 hypothetical protein MGC11332 1.20 2.25 432642 BE297635 Hs.3069 heat shock 70 kD protein 9B (mortalin-2) 1.20 2.18 448242 R60646 Hs.20768 HSPC189 protein 1.20 1.22 415753 U52819 Hs.78781 vascular endothelial growth factor B 1.20 1.05 442156 AI690586 Hs.29403 hypothetical protein FLJ22060 1.20 1.18 408824 L80005 Hs.48375 small nuclear ribonucleoprotein polypept 1.20 1.45 430012 NM_015373 Hs.227637 chromosome 22 open reading frame 2 1.20 1.03 413392 AW021404 Hs.13021 ESTs 1.20 2.07 401286 Target Exon 1.20 2.08 415665 AI097276 Hs.274430 surfeit 6 1.20 2.53 456562 AA306049 Hs.102669 DKFZP434O125 protein 1.20 2.40 408988 AL119844 Hs.49476 Homo sapiens clone TUA8 Cri-du-chat regi 1.20 3.45 427818 AW511222 Hs.193765 ESTs 1.19 2.99 406404 NM_002162*: Homo sapiens intercellular ad 1.19 1.17 400124 Eos Control 1.19 2.12 416023 AA173029 gb: zp05e01.r1 Stratagene ovarian cancer 1.19 2.45 427751 AF000152 Hs.180669 conserved gene amplified in osteosarcoma 1.19 1.07 401204 ENSP00000252232*: Sterol regulatory eleme 1.19 2.40 446771 AA128965 Hs.60679 TATA box binding protein (TBP)-associate 1.19 2.03 429673 AA884407 Hs.211595 protein tyrosine phosphatase, non-recept 1.18 2.36 400130 Eos Control 1.18 2.58 405365 CX001212*: gi|7861932|gb|AAF70445.1| (AF2 1.18 2.38 406181 Target Exon 1.18 2.18 422559 AW247696 Hs.155839 hypothetical protein MGC12934 1.18 2.13 409524 AW402151 Hs.54673 tumor necrosis factor (ligand) superfami 1.18 1.07 438446 AW137476 Hs.135204 Homo sapiens cDNA FLJ13884 fis, clone TH 1.18 2.11 447980 AI703397 Hs.202355 ESTs 1.18 2.02 425503 W92517 Hs.158203 actin binding LIM protein 1 1.18 1.29 411469 T09997 Hs.70327 cysteine-rich protein 2 1.18 0.99 409162 H25530 Hs.50868 solute carrier family 22 (organic cation 1.17 1.04 429986 AF092047 Hs.227277 sine oculis homeobox (Drosophila) homolo 1.17 1.00 420869 X58964 Hs.123638 regulatory factor X, 1 (influences HLA c 1.17 2.58 425943 H46986 Hs.31861 ESTs 1.17 2.25 415376 R35960 Hs.180711 Homo sapiens, Similar to hypothetical pr 1.17 2.13 420588 AF000982 Hs.147916 DEAD/H (Asp-Glu-Ala-Asp/His) box polypep 1.17 2.38 457205 AI905780 Hs.198272 Target CAT 1.17 1.11 407970 AW403814 Hs.41714 BCL2-associated athanogene 1.16 3.60 440214 AA247118 Hs.7049 hypothetical protein FLJ11305 1.16 2.15 405646 C12000200: gi|4557225|ref|NP_000005.1| al 1.16 1.11 438438 AA257992 Hs.50651 Janus kinase 1 (a protein tyrosine kinas 1.16 1.08 431427 AK000401 Hs.252748 Homo sapiens cDNA FLJ20394 fis, clone KA 1.16 2.08 419885 AA251561 Hs.48689 ESTs 1.16 2.07 427679 AA973904 Hs.176092 ESTs, Moderately similar to MYPH_HUMAN M 1.16 2.15 443865 AW296385 Hs.146139 hypothetical protein FLJ12610 1.15 2.05 415511 AI732617 Hs.182362 ESTs 1.15 3.44 417988 AA210878 Hs.111219 ESTs, Moderately similar to ALU1_HUMAN A 1.15 2.09 405058 Target Exon 1.15 1.16 446623 AF279865 Hs.15711 kinesin family member 13B 1.15 1.21 419754 H52299 Hs.308467 Homo sapiens mRNA; cDNA DKFZp58610523 (f 1.15 1.15 420003 AA256906 Hs.111364 ESTs, Weakly similar to ubiquitous TPR m 1.15 2.06 422988 AW673847 Hs.97321 ESTs 1.15 1.00 426371 M63967 Hs.169517 aldehyde dehydrogenase 1 family, member 1.15 2.31 422895 NM_015958 CGI-30 protein 1.15 2.08 426295 AW367283 Hs.278270 zinc finger protein 6 (CMPX1) 1.15 2.13 448323 AI492298 Hs.170915 ESTs 1.14 2.54 414244 AA287801 Hs.71711 ESTs, Moderately similar to Z195_HUMAN Z 1.14 2.23 442872 AI471987 Hs.173045 ESTs 1.14 2.09 425318 AU076845 Hs.155596 BCL2/adenovirus E1B 19 kD-interacting pro 1.14 2.33 415667 F11582 Hs.78582 developmentally regulated GTP-binding pr 1.14 1.10 401058 Target Exon 1.14 2.20 409838 AW502928 gb: UI-HF-BP0p-aiw-e-10-0-UI.r1 NIH_MGC_5 1.14 2.15 438493 AI130740 Hs.6241 phosphoinositide-3-kinase, regulatory su 1.14 1.00 404392 C7001460: gi|12667420|gb|AAK01436.1|AF332 1.14 2.82 433220 AI076192 Hs.131933 ESTs 1.14 2.78 405166 Target Exon 1.14 2.23 401038 C11000425: gi|4507721|ref|NP_003310.1| ti 1.14 2.71 414052 AW578849 Hs.283552 ESTs, Weakly similar to unnamed protein 1.14 2.08 442043 BE567620 Hs.99210 ESTs 1.13 2.17 419727 AW160796 Hs.92700 DKFZP564O243 protein 1.13 1.14 425206 NM_002153 Hs.155109 hydroxysteroid (17-beta) dehydrogenase 2 1.13 2.07 414682 AL021154 Hs.76884 inhibitor of DNA binding 3, dominant neg 1.13 1.47 402712 C1003562*: gi|10047177|dbj|BAB13382.1| (A 1.13 1.18 452289 BE568205 Hs.28827 mitogen-activated protein kinase kinase 1.12 2.16 401496 Target Exon 1.12 1.10 459249 AI970399 Hs.240079 ESTs 1.12 2.67 447495 AW401864 Hs.18720 programmed cell death 8 (apoptosis-induc 1.12 2.03 428422 AI557280 Hs.184270 capping protein (actin filament) muscle 1.11 2.60 421762 AA297546 gb: EST113074 Fetal brain III Homo sapien 1.11 2.15 405855 Target Exon 1.11 1.98 428972 AK001470 Hs.194692 cysteine desulfurase 1.11 2.19 406761 AI241715 Hs.77039 ATP synthase, H transporting, mitochondr 1.10 3.33 432425 AF070619 Hs.274539 Homo sapiens clone 24481 mRNA sequence 1.10 2.30 446241 AI004677 Hs.179260 chromosome 14 open reading frame 4 1.10 2.28 424454 AB011139 Hs.147946 optic atrophy 1 (autosomal dominant) 1.10 2.18 418242 AW976183 Hs.88414 BTB and CNC homology 1, basic leucine zi 1.10 2.07 437407 AI479332 Hs.129031 ESTs 1.10 2.09 447459 AI380255 Hs.159424 ESTs 1.10 2.22 426682 AV660038 Hs.2056 UDP glyconyltransferase 1 family, polype 1.09 2.33 403655 NM_003071: Homo sapiens SWI/SNF related, 1.09 2.25 433156 R59206 Hs.17519 Homo sapiens cDNA: FLJ22539 fis, clone H 1.09 2.70 403826 Target Exon 1.09 1.10 433333 AI016521 Hs.71816 v-akt murine thymoma viral oncogene homo 1.09 1.06 451382 H86180 Hs.221513 ESTs 1.08 2.75 454717 AW815123 gb: QV4-ST0212-261199-045-b01 ST0212 Homo 1.08 1.98 422743 BE304678 Hs.119598 ribosomal protein L3 1.08 1.00 411672 AJ275986 Hs.71414 transcription factor (SMIF gene) 1.08 1.00 452748 AB011128 Hs.30512 Homo sapiens mRNA for KIAA0556 protein, 1.08 2.45 428330 L22524 Hs.2256 matrix metalloproteinase 7 (matrilysin, 1.08 2.15 447703 AI420277 gb: tf06c12.x1 NCI_CGAP_Pr28 Homo sapiens 1.08 2.05 452420 BE564871 Hs.29463 centrin, EF-hand protein, 3 (CDC31 yeast 1.07 2.03 455234 R41084 gb: Hk763-f Adult heart, Clontech Homo sa 1.07 2.08 413945 NM_000591 Hs.75627 CD14 antigen 1.07 0.91 417333 AL157545 Hs.173179 bromodomain and PHD finger containing, 3 1.07 1.00 434105 AW952124 Hs.13094 presenilins associated rhomboid-like pro 1.07 1.11 455630 AV655701 Hs.75183 cytochrome P450, subfamily IIE (ethanol- 1.06 2.14 455424 AW937733 gb: QV3-DT0045-210100-063-d06 DT0045 Homo 1.05 2.03 438324 AI792660 Hs.6162 KIAA0771 protein 1.05 2.27 421604 AW293880 Hs.248367 MEGF11 protein 1.05 2.00 422614 AI908006 Hs.295362 Homo sapiens cDNA FLJ14459 fis, clone HE 1.04 2.33 404058 Target Exon 1.04 2.10 453085 AW954243 KIAA0251 protein 1.04 2.18 417500 H59970 gb: yr16f04.r1 Soares fetal liver spleen 1.04 2.40 408653 AW410189 Hs.98074 itchy (mouse homolog) E3 ubiquitin prote 1.04 2.73 440439 N92818 Hs.64754 ESTs, Weakly similar to potential CDS [H 1.04 2.05 409209 AA460160 Hs.73217 ESTs 1.04 2.73 456107 AA160000 Hs.137396 ESTs, Weakly similar to JC5238 galactosy 1.03 2.18 415403 F07923 Hs.26744 ESTs 1.02 2.43 455591 BE008018 gb: QV0-BN0147-290400-214-c01 BN0147 Homo 1.02 2.08 428491 AF091035 Hs.184627 KIAA0118 protein 1.02 2.81 407788 BE514982 Hs.38991 S100 calcium-binding protein A2 1.02 2.11 434540 NM_016045 Hs.3945 CGI-107 protein 1.02 2.78 442174 AI690080 Hs.128907 ESTs, Weakly similar to ARIX homeodomain 1.02 2.05 413431 AW246428 Hs.75355 ubiquitin-conjugating enzyme E2N (homolo 1.02 1.00 452436 BE077546 Hs.31447 ESTs, Moderately similar to A46010 X-lin 1.02 2.25 454412 AW582568 gb: RC1-ST0278-080100-011-h04 ST0278 Homo 1.00 2.20 426955 AA393669 Hs.238094 ESTs 1.00 2.18 425910 AA830797 Hs.184760 CCAAT-box-binding transcription factor 1.00 2.10 405710 CX000682: gi|12741327|ref|XP_008833.2| zi 1.00 2.00 400296 AA305627 Hs.139336 ATP-binding cassette, sub-family C (CFTR 1.00 1.00 402001 Target Exon 1.00 1.00 402812 NM_004930*: Homo sapiens capping protein 1.00 1.00 402892 Target Exon 1.00 1.00 403329 Target Exon 1.00 1.00 407202 N58172 Hs.109370 ESTs 1.00 1.00 408684 R61377 Hs.12727 hypothetical protein FLJ21610 1.00 1.00 410555 U92649 Hs.64311 a disintegrin and metalloproteinase doma 1.00 1.00 413573 AI733859 Hs.149089 ESTs 1.00 1.00 414343 AL036166 Hs.323378 coated vesicle membrane protein 1.00 1.00 414422 AA147224 Hs.249195 Homeo box A13 1.00 1.00 417006 AW673606 Hs.80758 aspartyl-tRNA synthetase 1.00 1.00 421577 BE465451 Hs.105925 single-minded (Drosophila) homolog 1 1.00 1.00 423349 AF010258 Hs.127428 homeo box A9 1.00 1.00 424273 W40460 Hs.144442 phospholipase A2, group X 1.00 1.00 424649 BE242035 Hs.151461 embryonic ectoderm development 1.00 1.00 426827 AW067805 Hs.172665 methylenetetrahydrofolate dehydrogenase 1.00 1.00 427308 D26067 Hs.174905 KIAA0033 protein 1.00 1.00 429597 NM_003816 Hs.2442 a disintegrin and metalloproteinase doma 1.00 1.00 430261 AA305127 Hs.237225 hypothetical protein HT023 1.00 1.00 431078 U82827 Hs.249195 homeo box A13 1.00 1.00 433222 AW514472 Hs.238415 dickkopf (Xenopus laevis) homolog 4 1.00 1.00 434980 AW770553 Hs.14553 sterol O-acyltransferase (acyl-Coenzyme 1.00 1.00 435974 U29690 Hs.37744 Homo sapiens beta-1 adrenergic receptor 1.00 1.00 443054 AI745185 Hs.8939 yes-associated protein 65 kDa 1.00 1.00 443564 AI921685 Hs.199713 ESTs 1.00 1.00 444542 AI161293 Hs.280380 aminopeptidase 1.00 1.00 445413 AA151342 Hs.12677 CGI-147 protein 1.00 1.00 448706 AW291095 Hs.21814 interleukin 20 receptor, alpha 1.00 1.00 448807 AI571940 Hs.7549 ESTs 1.00 1.00 449448 D60730 Hs.57471 ESTs 1.00 1.00 449517 AW500106 Hs.23643 serine/threonine protein kinase MASK 1.00 1.00 450568 AL050078 Hs.25159 Homo sapiens cDNA FLJ10784 fis, clone NT 1.00 1.00 451844 T61430 gb: yc06a03.s1 Stratagene lung (937210) H 1.00 1.00 452039 AI922988 Hs.172510 ESTs 1.00 1.00 452795 AW392555 Hs.18878 hypothetical protein FLJ21620 1.00 1.00 453096 AW294631 Hs.11325 ESTs 1.00 1.00 453370 AI470523 Hs.139336 ATP-binding cassette, sub-family C (CFTR 1.00 1.00 453966 BE148734 Hs.63325 transmembrane protease, serine 4 1.00 1.00 405580 Target Exon 1.00 1.00 430268 AK000737 Hs.237480 hypothetical protein FLJ20730 1.00 1.00 450377 AB033091 Hs.74313 KIAA1265 protein 1.00 1.00 433226 AW503733 Hs.9414 KIAA1488 protein 1.00 1.00 412719 AW016610 Hs.816 ESTs 1.00 1.00 425289 AW139342 Hs.155530 interferon, gamma-inducible protein 16 1.00 1.00 446921 AB012113 Hs.16530 small inducible cytokine subfamily A (Cy 1.00 1.00 439706 AW872527 Hs.59761 ESTs, Weakly similar to DAP1_HUMAN DEATH 1.00 1.00 438817 AI023799 Hs.163242 ESTs 1.00 1.00 455474 AW948094 gb: RC0-MT0012-290300-031-c10 MT0012 Homo 0.99 2.00 420148 U34227 Hs.95361 myosin VIIA (Usher syndrome 1B (autosoma 0.99 2.33 428466 AF151063 Hs.184456 hypothetical protein 0.98 2.20 421594 R45689 Hs.21889 Homo sapiens cDNA FLJ12978 fis, clone NT 0.98 3.09 444654 AV650572 Hs.23440 KIAA1105 protein 0.98 2.00 409759 N40285 Hs.81182 histamine N-methyltransferase 0.97 2.20 401936 Target Exon 0.97 2.39 403463 Target Exon 0.96 2.58 434421 AI915927 Hs.34771 ESTs 0.96 2.15 412636 NM_004415 desmoplakin (DPI, DPII) 0.95 2.01 442432 BE093589 Hs.38178 hypothetical protein FLJ23468 0.93 2.55 421938 AA405951 gb: zu66c01.r1 Soares_testis_NHT Homo sap 0.93 3.10 447470 BE618324 Hs.263561 ESTs, Weakly similar to A53531 oncofetal 0.92 2.08 448369 AW268962 Hs.111335 ESTs 0.91 2.35 421710 AB007930 Hs.107088 KIAA0461 protein 0.91 2.63 406805 AI686003 Hs.296031 ESTs 0.91 2.21 447475 AI380797 Hs.158992 ESTs 0.90 3.25 428892 U82828 Hs.194382 ataxia telangiectasia mutated (includes 0.90 2.02 450222 U75308 Hs.24644 TATA box binding protein (TBP)-associate 0.89 2.73 401572 C15001384*: gi|12737057|ref|XP_012129.1| 0.88 2.00 429226 AA913330 Hs.53542 choreoacanthocytosis gene; KIAA0986 prot 0.88 2.37 421979 AW062518 Hs.233150 hypothetical protein MGC5560 0.87 3.70 407614 NM_001932 Hs.37144 membrane protein, palmitoylated 3 (MAGUK 0.86 2.02 417912 R25269 Hs.50547 ESTs 0.86 2.00 401654 NM_007242: Homo sapiens DEAD/H (Asp-Glu-A 0.86 2.11 403149 NM_001450: Homo sapiens four and a half L 0.86 2.19 413000 BE046280 gb: hn43c09.x2 NCI_CGAP_RDF2 Homo sapiens 0.85 2.40 425166 AK001456 Hs.154919 KIAA0625 protein 0.85 2.18 447371 AA334274 Hs.18368 DKFZP564B0769 protein 0.84 2.13 452801 AI935587 Hs.34447 ESTs 0.84 2.55 400957 Target Exon 0.83 2.15 426420 BE383808 Hs.322430 NDRG family, member 4 0.83 2.14 429354 AA451666 Hs.269363 ESTs 0.80 2.25 417831 H16423 Hs.82685 CD47 antigen (Rh-related antigen, integr 0.78 2.43 443368 BE568891 Hs.199210 ESTs, Moderately similar to bK116F5.2[H 0.78 2.00 441901 AI914445 Hs.128103 ESTs 0.76 2.06 429462 AI890356 Hs.127804 Homo sapiens, clone IMAGE: 3536432, mRNA, 0.76 2.03 403010 C21000152: gi|6226483|sp|Q52118|YMO3_ERWS 0.75 2.43 420344 BE463721 Hs.97101 putative G protein-coupled receptor 0.75 2.42 448332 AW293110 Hs.171068 ESTs 0.74 2.00 421674 T10707 Hs.296355 hypothetical protein FLJ23138 0.71 2.18 450645 AL117441 Hs.301997 hypothetical protein FLJ13033 0.67 2.06 448514 AB020626 Hs.301866 KIAA0819 protein 0.67 2.03 431609 AW792792 Hs.264330 N-acylsphingosine amidohydrolase (acid c 0.60 2.54 417512 X76534 Hs.82226 glycoprotein (transmembrane) nmb 0.60 2.00 425960 AW410646 Hs.164649 hypothetical protein DKFZp434H247 0.57 2.15 408077 AL133574 Hs.42458 Homo sapiens mRNA; cDNA DKFZp586C1817 (f 0.53 2.29

[0386] TABLE 9B Pkey CAT Number Accession 409345 112147_1 AI949109 AW118631 AI833148 AW117891 R45932 R80970 AA733110 AW269428 T27024 R97693 AI149202 AI475492 H98845 AA609665 AI125598 AW663742 AI140029 AW103164 AA126862 N66829 W65398 H94509 W65300 R07712 R36955 AA812477 AA609576 AI754304 Z41075 AA970004 AW274661 AA923584 AI673108 AA070706 AA541812 T90938 409540 1138613_1 AW409569 BE297044 BE295828 409806 1155259_1 AW500960 AW501280 AW500814 409838 1155987_1 AW502928 AW505606 AW501576 AW501577 409844 1156139_1 AW502336 AW502339 AW501736 AW501839 409855 1156256_1 AW502461 AW503000 AW502207 AW501862 409865 1156518_1 AW502208 AW502366 AW502148 410600 121108_1 AW575742 BE549623 AI335824 BE463447 AA729043 AW408712 AW499616 AA086179 AW499617 AA191322 410846 1223902_1 AW807057 AW807054 AW807189 AW807193 AW807369 AW807429 AW807364 AW807365 AW807078 AW807256 AW807180 AW807331 410946 1227589_1 AW811502 AW811521 AW811548 AW811471 AW811511 AW811508 411456 1246706_1 AW847588 AW847716 AW847664 AW847592 411609 1251530_1 AW993680 AW853769 412210 1283615_1 AW901492 AW947725 AW901448 412383 1292509_1 AW947577 AW947574 AW947576 AW947734 AW947733 AW947732 412560 130601_1 R24601 R23657 AA194467 AI948584 AI678666 AA194383 AI765219 AA702993 AA813511 AA620965 AI990303 AI624882 AI003925 AI338870 AI004689 AI004690 AI127228 Z25302 F29302 BE044308 F32992 AA112966 T30825 F24958 F18071 C00537 T30841 R24502 AI934786 AI770075 AI144132 AA812597 AW203978 H82735 AI813349 AI1142908 C04894 AI208243 AI208044 N89963 AI767866 AI290470 AI865963 H83611 BE463806 AI082639 AA507760 412636 13165_1 NM_004415 AL031058 M77830 BE149760 AW752599 AW848723 AW376697 AW376817 AW376699 AW848371 AW376782 AW848789 AW361413 AW849074 AW997139 AW799304 AW799309 BE077020 BE077017 BE185187 AW997196 BE156621 BE179915 BE006561 BE143155 AW890985 BE002107 AW103521 AA857316 AW383133 BE011378 AW170253 BE185750 AW886475 BE160433 J05211 BE082576 BE082584 BE004047 AW607238 AW377700 AW377699 BE082526 BE082505 BE082507 BE082514 AW178000 AW177933 AI905935 AW747877 AW748114 BE148516 AW265328 AW847678 AW847688 AW365151 AW365148 AW365153 AW365156 AW365175 AW365157 AW365154 AW068840 BE005272 AW365145 BE001925 BE182166 BE144243 BE001923 AI951766 AI434518 BE184920 BE184933 AI284090 BE184941 AW804674 BE184924 C04715 W39488 AW995615 BE184948 BE159646 AW606653 AA099891 AA131128 AA337270 AA340777 AW384371 AA852212 R58704 AW366566 AW364859 AA025851 AA025852 AA455100 AA719958 AW352220 AW996245 BE165351 BE073467 AA377127 AW890264 AW609750 AW391912 AW849690 T87267 AW853812 AA852213 W74149 BE009090 AA056401 H91011 AW368529 AW390272 C18467 AW674920 N57176 AA026480 AW576767 H93284 AA026863 AW177787 AA026654 AW177786 BE092134 BE092137 BE092136 AW177784 AI022862 BE091653 AW376811 AW848592 AA040018 BE185331 BE182164 AA368564 AW951576 T29918 AA131077 W95048 W25458 AW205789 H90899 N29754 W32490 R20904 BE167181 BE167165 N84767 H27408 H30146 AI190590 C03378 AI554403 AI205263 AA128470 AI392926 AF139065 AW370813 AW370827 AW798417 AW798780 AW798883 AW798569 R33557 AA149190 C03029 AW177783 AA088866 AW370829 AA247685 BE002273 AI760816 AI439101 AW879451 AI700963 AA451923 AI340326 AI590975 T48793 AI568096 AI142882 AA039975 AI470146 AA946936 BE067737 BE067786 W19287 AA644381 AA702424 AI417612 AI306554 AI686869 AI568892 AW190555 AI571075 AI220573 AA056527 AI471874 AI304772 AW517828 AI915596 AI627383 AI270345 AW021347 AW166807 AW105614 AI346078 AA552300 W95070 AI494069 AI911702 AA149191 AA026864 AI830049 AI887258 AW780435 AI910434 AI819984 AI858282 AI078449 AI025932 AI860584 AI635878 AA026047 AA703232 D12062 AW192085 AA658154 AW514597 AW591892 T87181 AA782066 AW243815 AW150038 AW268383 AW004633 AI927207 AA782109 AW473233 AI804485 AW169216 AI572669 AA602182 AW015480 AW771865 AI270027 AA961816 AA283207 AI076962 AI498487 AI348053 AI783914 H44405 AW799118 AA128330 AA515500 AA918281 W02156 AI905927 AA022701 W38382 R20795 T77861 AW860878 412998 1343218_1 BE046254 BE046673 BE046253 413000 1343239_1 BE046280 BE046763 BE046676 413611 1380017_1 BE153275 BE153189 BE153329 BE153022 BE153030 BE152974 413709 1384144_1 BE158687 BE158688 413804 1390710_1 T64682 BE168190 BE168256 413895 1397743_1 BE178160 BE177986 BE178330 BE178480 415789 1555357_1 H01581 H12850 R65905 H13053 416023 156696_1 AA173029 BE467711 AA176710 416272 158407_1 AA178882 AA179898 AA178897 417500 168443_1 H59970 AA203382 R08822 419555 185884_1 AA244416 AA244401 420685 195591_1 AA279362 AA454496 AA584871 421762 206590_1 AA297546 AA297410 AA297401 AA297465 AA297268 AW966174 421938 209376_1 AA405951 AA300675 AA412243 AA412383 422895 22276_1 NM_015958 AF132964 AA088658 N28882 AI197842 AA338679 AA405666 W16871 AA385447 AI928315 AI928318 AW846613 AW960009 AI860687 AI206534 AI961336 T64873 AI735559 H58826 AA857710 AW337576 BE242131 AA339340 AA371380 AA334618 AA316398 R96579 AW771996 AA366110 W07461 H77948 422984 223488_3 W28614 W27435 AI983043 AA364395 AW572472 AW190386 AI129278 AI913081 AW473549 AA830713 AI982871 AI638647 AI828466 AW572486 N52583 N89687 AW075567 AI571047 AI887479 AI559469 AI685802 AA805256 AI458777 AA974369 AI866929 AI886032 AI823925 AI823566 AW198135 AI287510 AI565910 AA765775 AI866019 AI263697 AI355825 R42668 AA894603 AW105585 AI824555 AW339175 D20479 432638 35173_4 AI017717 AA349996 AA350286 BE501310 R48207 AI372769 AJ003450 AA915976 AI261513 AI033019 AI222825 AW150983 AA420700 AA420670 AW884784 Z40157 433821 374566_1 AW182416 AA918195 AA778707 AA927922 AA868718 AA853991 AA609856 AA634398 434767 39297_1 AF153201 AW888811 AW888810 AW842970 AA383181 F35832 F26805 X78930 AF026094 N83362 AA206766 AW874294 AA284205 AI091885 AA206800 AW370684 AA904608 AA806352 AA894757 AW068376 AA807284 AA311341 AW958314 434809 393566_1 AW974687 AA649656 AA652145 438129 450500_1 AA778647 AW070999 R42302 438713 463722_1 H16902 AA814856 T65225 AI523569 F09869 F04737 AI538427 AI051714 AW172603 F02602 F01437 AI684417 AI801950 F02970 Z39367 F02882 T16704 H14597 AW952332 R52080 H10427 T06175 T31057 AI381431 R60918 R41255 R43059 R39905 H19330 R36968 438924 4669_1 BE535511 M62098 AA306787 AW891766 AA348998 AA338869 AA344013 AW956561 AW389343 AW403607 L40391 AW408435 AA121738 AI568978 H13317 R20373 AW948724 AW948744 AA335023 AA436722 AA448690 C21404 AW884390 AA345454 AA303292 AA174174 BE092290 T90614 AA035104 R76028 AA126924 AA741086 AW022056 AW118940 AA121666 AI832409 AA683475 AI140901 AI623576 AW519064 AW474125 AI953923 AI735349 AW150109 AI436154 AW118130 AW270782 AI804073 N27434 AA876543 AA937815 AI051166 AA505378 AI041975 AI335355 AI089540 AA662243 AI127912 AI925604 AI250880 AI366874 AI564386 AI815196 AI683526 AI435885 AI160934 H79030 AI801493 AA448691 AI673767 AI076042 AI804327 AA813438 AA680002 AI274492 T16177 AI287337 AI935050 AA907805 AA911493 AI589411 AI371358 AW576236 AI078866 AW516168 AA346372 AI560185 AA471009 R75857 AA296025 AA523155 AA853168 AI696593 AI658482 AI566601 AW072797 AA128047 AA035502 AW243274 AA992517 R43760 439004 467743_1 AW979062 AA848000 AA847968 AA829138 441623 52182_1 AA315805 AA376906 BE539395 AW579186 H44349 BE328145 BE041644 AW579187 AW366504 H28241 H25318 W37573 AW600919 AA528775 R75904 AW780125 AA149420 AI672414 AI122760 AA345675 AW172758 AI337912 AI961291 AW090300 AI090244 BE219837 AI623661 BE501576 AI742232 AW887496 BE501734 AI023964 AI288904 AA975373 AA890325 AI458424 AI984583 N32562 AI358102 AW241694 AI038448 AA576391 AI018389 AI672071 AA977874 W37448 AW189392 AA612894 AI373653 H89551 H89365 AI699774 AI277548 442473 543413_1 W27992 AF056988 442506 54405_1 BE566411 AL121194 AW976385 AW366882 AI767324 445182 632151_1 AW189787 AI215430 AW268499 AW205930 AI392907 BE093017 BE093019 BE093010 447703 733191_1 AI420277 AW747989 W26565 448079 74834_1 R76981 AA101801 AA101722 AA122297 AA098802 BE006483 AA343200 AW963375 BE090425 AA213871 BE621402 AA309094 AW960171 AI275045 Z44230 AW243724 AI051487 AI376624 R68631 AW978550 C00116 AI984051 AA122265 AI379941 AW205843 AW205839 AW190219 AW129532 AI954133 AI668869 AI383948 AI537386 AA213788 AI088416 AI360826 AA101802 AI619505 AA101795 AA101723 AW614392 R64287 AA927599 AI251904 AI803003 AI675123 AW023079 AW134959 AI926156 AA831069 AI638324 F29901 R46085 F03383 C17731 R20584 T90131 450936 85190_2 AI033745 AI034133 AA844424 AW166024 AI831699 AI971097 AA011685 H70852 H70851 451844 888230_1 T61430 AI820546 AI821336 452900 93691_1 AA626794 AA626779 AA071274 AA928041 AI954235 N71035 N70230 AW674412 AI871136 AI563955 AI954237 AA649543 AI340231 AI368586 AI868721 W44486 T83736 AA126250 AI343619 H94297 T47633 AI672897 AA496355 R23240 AI814680 AA902119 AA644262 N67040 AW074273 AI357512 AA865354 AI027942 R33837 H95828 N63928 AI418701 AI186469 AA693672 AA778429 AA128352 AW954072 C00015 AA861853 AW022016 AI955645 AI753118 AI755095 AA029523 T70086 AA029458 AW675640 N79606 AI659597 AI417119 AI804089 AI383091 AA128493 T83907 T47632 AA094118 AA496405 H94191 AW887759 N98454 AA512988 AI623761 AW028373 AW249740 AI187029 AA991733 AI683085 AI336036 D60550 D60466 D60009 D60248 AW262673 AI524080 AA205643 AI969141 AW674989 AA093704 R81248 R73069 W01019 R23316 C14688 W44485 AA093663 T70157 H57883 R94790 D81287 D81788 AA364340 AA383533 N41706 BE295144 D60973 D81466 D60551 R33836 D60249 AA354560 W01933 T71478 AA515461 F27984 BE084745 W19084 R81247 AI080252 AI382863 AA205642 453085 94851_1 AW954243 AA829930 AA412478 AA828434 AA814538 AI927418 AI192435 W52897 AA443666 AA031913 AI683306 AA918481 AI183314 D83907 AI206832 AA876122 D83836 D83838 D82533 AI761290 AI191125 AI143749 AW771909 AI241436 AI767267 W56507 AA847787 AA568692 T10502 AI247870 AA715017 AA643304 AA890233 AA811387 AA897470 AA907729 AI708679 AI078010 AA452830 AW419160 AI783713 N80205 W56778 AA676899 AI888718 N69930 AI338935 AI217580 AA639508 AA575836 BE046852 AI312651 AI038406 AA628649 AA643838 AI493761 AA032024 W38849 AA340178 AA447052 AA452969 W19369 AA296364 H44229 W58767 C05751 C05835 AI741989 N98532 AW102617 AA412583 AI922246 W38495 AA355375 AA928571 C06275 AA352500 N93132 454412 1174764_1 AW582568 AW818656 AW818647 AW818655 AW818637 AW818234 454555 1223870_1 AW807095 AW807022 AW845880 AW807096 AW807461 AW846116 AW807070 454717 1230516_1 AW815123 AW815138 AW815259 455234 1265385_1 R41084 AW875856 455424 1289247_1 AW937733 AW937727 AW937883 455474 1292960_1 AW948094 AW948118 AW948070 AW948093 AW948084 AW948088 AW948074 AW948079 AW948117 AW948085 AW948081 AW948096 AW948102 AW948087 AW948080 AW948061 AW948091 AW948098 AW948089 AW948104 AW948119 AW948069 AW948100 AW948112 AW948121 AW948068 AW948109 AW948105 AW948097 AW948120 AW948108 AW948111 AW948114 AW948115 AW948072 AW948083 AW948095 AW948116 AW948078 AW948077 AW948071 AW948067 AW948107 AW948122 AW948065 AW948064 AW948113 AW948063 AW948062 455476 1293055_1 AW948172 AW948178 AW948169 AW948176 AW948191 AW948192 AW948186 AW948184 AW948187 AW948188 AW948189 AW948181 AW948177 AW948171 AW948183 AW948173 455591 1335166_1 BE008018 BE008025 BE008026 BE007959 BE007994 BE008016 BE008019 BE008024 BE008022 BE008027 BE008029 BE008020 BE008015 BE008021 BE008028 BE008023 BE008030 BE008014 455604 1337197_1 BE011183 BE011170 BE011333 BE011188 BE011181 BE011324 BE011161 BE011169 455842 1374629_1 BE145837 BE145894 457747 397222_1 AW975000 AA658945 AA661558 458991 850804_1 AI743502 AI807438 459192 923891_1 AW176180 AW176212 AI909464 AW176218 AW176171 AW176203 AW176181 AW176213

[0387] TABLE 9C Pkey Ref Strand Nt_position 400634 8567750 Minus 101102-101223, 101886-102018 400750 8119067 Plus 198991-199168, 199316-199548 400752 7331445 Minus 36215-36461 400772 8131629 Minus 34896-35021, 41078-41197 400773 8131629 Minus 44116-44238, 48208-48321 400788 7342055 Plus 184369-184715 400789 8307741 Plus 82281-83693 400835 8954121 Plus 89366-89622 400843 9188605 Plus 5863-5970, 7653-7784, 8892-9023, 9673-9807, 10634-10789, 15254-15403, 23827-23958 400844 9188605 Plus 24746-24872, 25035-25204 400845 9188605 Plus 34428-34612 400846 9188605 Plus 39310-39474 400847 9188605 Plus 44643-44835 400957 7705148 Minus 66959-67241 400967 7770682 Minus 32697-32999 401038 7232177 Minus 4277-4469 401041 7232177 Plus 44750-45076 401058 8117654 Minus 45226-45414 401155 9438289 Plus 31381-31526 401177 9438503 Minus 62773-63330 401196 9719673 Plus 33138-33834 401204 9743388 Minus 33694-33872 401286 9801342 Minus 147036-147318 401346 9926605 Minus 12031-13032 401371 9650602 Plus 80901-81283 401383 6721135 Minus 155543-157381 401496 7381769 Minus 82790-83002 401512 7622346 Plus 136399-136557 401563 8247910 Plus 91395-91763 401572 8570271 Minus 78651-78889 401593 7230957 Plus 10368-10572, 11293-12356 401600 4388746 Minus 27363-27518, 28727-28891, 29526-29731 401603 7689963 Minus 116659-116780 401613 4878062 Plus 22461-22831 401654 9097132 Minus 64695-64797 401660 9100664 Minus 173662-174024 401720 6468551 Plus 7783-8468 401784 7249190 Plus 148362-148606, 149453-149535, 149731-149962 401835 7139700 Plus 142257-142742 401886 7229913 Minus 79215-79393 401936 3808091 Plus 46817-46943 402001 9501818 Plus 68052-68223 402087 8117546 Plus 137069-137213, 138678-138828, 138969-139050 402138 7704985 Plus 14173-15108 402144 7242326 Plus 115425-115977 402190 8576067 Minus 76488-76959 402191 8576073 Minus 69410-69583 402329 7798735 Plus 15833-16180, 18419-18715, 22507-22624 402368 9558577 Minus 47218-47330, 48052-48203 402371 9558584 Plus 68736-68956 402378 9625333 Minus 41312-41468, 48313-48720 402449 9796674 Plus 59867-60039, 62588-62828, 63465-63623, 64923-65108 402474 7547175 Minus 53526-53628, 55755-55920, 57530-57757 402517 9798106 Plus 17569-17721 402599 7239666 Plus 5835-5987 402617 9930797 Minus 69466-69945 402712 8969253 Minus 10941-11138 402731 9211639 Minus 117913-118004, 121110-121211, 121327-121457, 125478-125623, 126540-126663 402737 9212184 Minus 13358-13552 402754 9213730 Plus 15345-15852 402760 9213869 Plus 136829-136952, 137336-137521 402812 6010110 Plus 25026-25091, 25844-25920 402845 9369286 Plus 160451-160617, 160788-161009 402869 6434643 Minus 138639-139335 402892 8086844 Minus 194384-194645 403010 3132346 Plus 78385-79052 403149 9799833 Plus 25034-25185 403326 8440025 Minus 110959-111122 403329 8516120 Plus 96450-96598 403342 7233487 Minus 42312-43750 403349 8569773 Minus 167815-168374 403381 9438267 Minus 26009-26178 403463 9929538 Plus 102596-102879 403655 8736093 Plus 65668-65859 403725 7534031 Plus 86737-86843 403728 7534291 Minus 34481-34671 403807 8439933 Minus 162963-165773 403826 9838209 Plus 121197-121358 403885 7710403 Minus 53259-53524 403943 7711864 Plus 100742-100904, 101322-101503 403988 8576087 Plus 16251-16462 404029 7671252 Plus 108716-111112 404058 3548785 Plus 99397-101808 404069 3168619 Plus 47310-47450 404178 7630978 Minus 178075-178383 404204 3169112 Minus 79868-80321 404231 8218035 Minus 61077-61322 404250 9187145 Minus 36099-36212, 37928-38075 404273 9885189 Plus 97789-98285, 99601-99855 404343 9838093 Plus 122664-122931 404349 7630858 Minus 61006-61187 404391 3135305 Minus 26030-26173, 27852-27997 404392 3135305 Minus 29738-29857 404397 9558608 Minus 104042-104232 404438 6984205 Plus 63413-63553 404439 7139680 Plus 55316-55585 404530 6479107 Plus 3157-3304 404596 9958262 Minus 104807-105043 404649 9796926 Minus 100027-100399 404666 7272179 Minus 18677-18993 404687 9797554 Minus 128456-128565 404744 9187237 Plus 71776-71852, 72885-73019, 73700-73822, 74692-74850 404751 7630939 Plus 113799-114252, 114393-114715 404769 8099713 Minus 175801-176823 404790 7230958 Plus 38611-38761 404906 7331453 Minus 100985-101126 404956 7387343 Plus 55883-56203 404977 3738341 Minus 43081-43229 405000 6957544 Minus 88854-89993 405022 7330304 Plus 217163-217439 405053 7651944 Minus 157134-157430 405058 7655685 Plus 150740-151556 405155 9966228 Plus 130469-130723 405163 9966267 Minus 161171-161299 405165 9966302 Plus 6461-6845 405166 9966302 Plus 40526-40891 405172 9966752 Plus 153027-153262 405180 7139743 Plus 65438-65740 405193 7230072 Plus 128187-128383 405194 7230072 Plus 190465-190645, 193346-193610 405245 7249293 Minus 57560-58312 405365 2275192 Minus 119867-120372, 120481-120824, 121029-121357 405376 1552533 Plus 28875-29099 405418 6997292 Plus 51839-51953 405436 7408068 Minus 55716-55979 405443 7408143 Plus 90716-90887, 101420-101577 405474 8439781 Plus 172005-172175 405502 9211311 Minus 50360-50584 405580 4512267 Plus 169232-169647 405595 7159256 Plus 47585-47688 405630 4508116 Minus 103218-103291, 105858-105993, 110051-110126 405646 4914350 Plus 741-969 405710 5531256 Minus 66203-66832 405806 7274891 Minus 224961-226780 405812 4775630 Minus 29424-29764 405855 7652031 Minus 60377-60795 405879 6758747 Minus 54789-55457 405891 6758795 Plus 41062-41861 405902 6758795 Minus 82322-83110 405932 7767812 Minus 123525-123713 406038 8389537 Plus 37764-37877 406140 9168231 Minus 49887-50219 406181 5923650 Plus 16586-16855 406231 7417725 Plus 17206-17641, 17772-17968 406248 7417725 Plus 49711-50227 406274 7543787 Plus 932-1123 406356 7107907 Plus 18761-18973 406404 9256305 Minus 152569-152874 406467 9795551 Plus 182212-182958 406557 7711569 Minus 5446-5574, 6170-6352 406575 7711679 Plus 142034-142473

[0388] TABLE 10A Genes preferentially expressed in non-invasive bladder tumors Pkey ExAccn UnigeneID Unigene Title R1 421110 AJ250717 Hs.1355 cathepsin E 8.23 428651 AF196478 Hs.188401 annexin A10 5.78 451668 Z43948 Hs.326444 cartilage acidic protein 1 5.53 415511 AI732617 Hs.182362 ESTs 4.72 428336 AA503115 Hs.183752 microseminoprotein, beta- 4.66 418026 BE379727 Hs.83213 fatty acid binding protein 4, adipocyte 4.62 400752 NM_003105*: Homo sapiens sortilin-related 3.99 430315 NM_004293 Hs.239147 guanine deaminase 3.82 403010 C21000152: gi|6226483|sp|Q52118|YMO3_ERWS 3.56 404977 Insulin-like growth factor 2 (somatomedi 3.54 426657 NM_015865 Hs.171731 solute carrier family 14 (area transport 3.51 400409 AF153341 Homo sapiens winged helix/forkhead trans 3.38 400844 NM_003105*: Homo sapiens sortilin-related 3.27 406081 Target Exon 3.22 417275 X63578 Hs.295449 parvalbumin 3.03 402230 Target Exon 2.96 454219 X75042 Hs.44313 v-rel avian reticuloendotheliosis viral 2.89 403381 ENSP00000231844*: Ecotropic virus integra 2.87 426088 AF038007 Hs.166196 ATPase, Class I, type 8B, member 1 2.86 452286 AI358570 Hs.123933 ESTs, Weakly similar to ZN91_HUMAN ZINC 2.69 434061 AW024973 Hs.283675 NPD009 protein 2.66 418406 X73501 Hs.84905 cytokeratin 20 2.65 418818 AA228899 Hs.101307 Homo sapiens HUT11 protein mRNA, partial 2.59 421594 R45689 Hs.21889 Homo sapiens cDNA FLJ12978 fis, clone NT 2.57 403383 Target Exon 2.56 435563 AF210317 Hs.95497 solute carrier family 2 (facilitated glu 2.55 424800 AL035588 Hs.153203 MyoD family inhibitor 2.54 404606 Target Exon 2.53 418205 L21715 Hs.83760 troponin I, skeletal, fast 2.53 431912 AI660552 Hs.76549 ESTs, Weakly similar to A56154 Abl subst 2.52 413786 AW613780 Hs.13500 ESTs 2.51 421100 AW351839 Hs.124660 Homo sapiens cDNA: FLJ21763 fis, clone C 2.50 416640 BE262478 Hs.79404 neuron-specific protein 2.50 420729 AW964897 Hs.290825 ESTs 2.50 402844 C1000118*: gi|9951913|ref|NP_062832.1| pr 2.48 401093 C12000586*: gi|6330167|db|BAA86477.1| (A 2.46 417720 AA205625 Hs.208067 ESTs 2.45 400297 AI127076 Hs.306201 hypothetical protein DKFZp564O1278 2.45 403818 Target Exon 2.44 440273 AI805392 Hs.325335 Homo sapiens cDNA: FLJ23523 fis, clone L 2.44 418060 AA211589 Hs.208047 ESTs 2.40 400843 NM_003105*: Homo sapiens sortilin-related 2.38 446006 NM_004403 Hs.13530 deafness, autosomal dominant 5 2.35 401512 NM_014080: Homo sapiens dual oxidase-like 2.34 446847 T51454 Hs.82845 Homo sapiens cDNA: FLJ21930 fis, clone H 2.32 417094 NM_006895 Hs.81182 histamine N-methyltransferase 2.31 436293 AI601188 Hs.120910 ESTs 2.30 436246 AW450963 Hs.119991 ESTs 2.30 447578 AA912347 Hs.136585 ESTs, Weakly similar to JC5314 CDC28/cdc 2.29 417381 AF164142 Hs.82042 solute carrier family 23 (nucleobase tra 2.28 426028 NM_001110 Hs.172028 a disintegrin and metalloproteinase doma 2.27 431448 AL137517 Hs.306201 hypothetical protein DKFZp564O1278 2.26 437181 AI306615 Hs.125343 ESTs, Weakly similar to KIAA0758 protein 2.23 415025 AW207091 Hs.72307 ESTs 2.18 412610 X90908 Hs.74126 fatty acid binding protein 6, ileal (gas 2.04 424099 AF071202 Hs.139336 ATP-binding cassette, sub-family C (CFTR 2.03 433078 AW015188 Hs.121575 Homo sapiens cDNA FLJ12231 fis, clone MA 2.01 416225 AA577730 Hs.188684 ESTs, Weakly similar to PC4259 ferritin 2.00 411880 AW872477 gb: hm30f03.x1 NCI_CGAP_Thy4 Homo sapiens 1.99 452316 AA298484 Hs.61265 ESTs, Moderately similar to G786_HUMAN P 1.89 413804 T64682 gb: yc48b02.r1 Stratagene liver (937224) 1.88 432306 Y18207 Hs.303090 protein phosphatase 1, regulatory (inhib 1.76 405364 ENSP00000239138*: Guanine nucleotide-bind 1.60 414320 U13616 Hs.75893 ankyrin 3, node of Ranvier (ankyrin G) 1.52 401929 C17001690:gi|6005701|ref|NP_009099.1| AT 1.00

[0389] TABLE 10B Pkey CAT Number Accession 411880 1263110_1 AW872477 BE088101 T05990 413804 1390710_1 T64682 BE168190 BE168256

[0390] TABLE 10C Pkey Ref Strand Nt_position 400752 7331445 Minus 36215-36461 400843 9188605 Plus 5863-5970, 7653-7784, 8892-9023, 9673-9807, 10634-10789, 15254-15403, 23827-23958 400844 9188605 Plus 24746-24872, 25035-25204 401093 8516137 Minus 22335-23166 401512 7622346 Plus 136399-136557 401929 3810670 Minus 3167-3286, 4216-4310 402230 9966312 Minus 29782-29932 402844 9369286 Plus 54958-55313 403010 3132346 Plus 78385-79052 403381 9438267 Minus 26009-26178 403383 9438267 Minus 119837-121197 403818 8962065 Minus 138360-138512, 144656-144796 404606 9212936 Minus 22310-23269 404977 3738341 Minus 43081-43229 405364 2281075 Minus 48325-48491, 49136-49252 406081 9123861 Minus 38115-38691

[0391] TABLE 11A Genes preferentially expressed in muscle-invasive bladder tumors Pkey ExAccn UnigeneID Unigene Title R1 423961 D13666 Hs.136348 periostin (OSF-2os) 11.22 421948 L42583 Hs.334309 keratin 6A 10.87 401780 NM_005557*: Homo sapiens keratin 16 (foca 9.16 446619 AU076643 Hs.313 secreted phosphoprotein 1 (osteopontin, 8.40 444381 BE387335 Hs.283713 ESTs, Weakly similar to S64054 hypotheti 7.88 439926 AW014875 Hs.137007 ESTs 7.73 408243 Y00787 Hs.624 interleukin 8 7.54 414183 AW957446 Hs.301711 ESTs 7.00 411573 AB029000 Hs.70823 KIAA1077 protein 6.52 414522 AW518944 Hs.76325 step II splicing factor SLU7 6.42 413063 AL035737 Hs.75184 chitinase 3-like 1 (cartilage glycoprote 6.14 441633 AW958544 Hs.112242 normal mucosa of esophagus specific 1 6.04 427337 Z46223 Hs.176663 Fc fragment of lgG, low affinity IIIb, r 5.66 420859 AW468397 Hs.100000 S100 calcium-binding protein A8 (calgran 5.62 422168 AA586894 Hs.112408 S100 calcium-binding protein A7 (psorias 5.51 418870 AF147204 Hs.89414 chemokine (C-X-C motif), receptor 4 (fus 5.48 401781 Target Exon 5.46 421116 T19132 Hs.101850 retinol-binding protein 1, cellular 5.41 448429 D17408 Hs.21223 calponin 1, basic, smooth muscle 5.41 414020 NM_002984 Hs.75703 small inducible cytokine A4 (homologous 5.32 447526 AL048753 Hs.303649 small inducible cytokine A2 (monocyte ch 5.32 424247 X14008 Hs.234734 lysozyme (renal amyloidosis) 5.27 456525 AW468397 Hs.100000 S100 calcium-binding protein A8 (calgran 5.22 418007 M13509 Hs.83169 matrix metalloproteinase 1 (interstitial 5.17 406663 U24683 Hs.293441 immunoglobulin heavy constant mu 5.08 425593 AA278921 Hs.1908 proteoglycan 1, secretory granule 4.93 433336 AF017986 Hs.31386 secreted frizzled-related protein 2 4.89 425118 AU076611 Hs.154672 methylene tetrahydrofolate dehydrogenase 4.74 415994 NM_002923 Hs.78944 regulator of G-protein signalling 2, 24 k 4.64 412326 R07566 Hs.73817 small inducible cytokine A3 (homologous 4.39 422158 L10343 Hs.112341 protease inhibitor 3, skin-derived (SKAL 4.30 446921 AB012113 Hs.16530 small inducible cytokine subfamily A (Cy 4.29 433470 AW960564 transmembrane 4 superfamily member 1 4.23 417880 BE241595 Hs.82848 selectin L (lymphocyte adhesion molecule 4.22 446500 U78093 Hs.15154 sushi-repeat-containing protein, X chrom 4.22 413324 V00571 Hs.75294 corticotropin releasing hormone 4.20 436729 BE621807 transmembrane 4 superfamily member 1 4.18 450455 AL117424 Hs.25035 chloride intracellular channel 4 4.15 413731 BE243845 Hs.75511 connective tissue growth factor 4.09 412429 AV650262 Hs.75765 GRO2 oncogene 4.00 418283 S79895 Hs.83942 cathepsin K (pycnodysostosis) 4.00 418299 AA279530 Hs.83968 integrin, beta 2 (antigen CD18 (p95), ly 4.00 420899 NM_001629 Hs.100194 arachidonate 5-lipoxygenase-activating p 3.97 400288 X06256 Hs.149609 integrin, alpha 5 (fibronectin receptor, 3.95 437446 AA788946 Hs.101302 ESTs, Moderately similar to CA1C RAT COL 3.94 413441 AI929374 Hs.75367 Src-like-adapter 3.91 404854 Target Exon 3.81 431319 AA873350 Hs.302232 ESTs 3.77 452432 AW206008 Hs.283378 Homo sapiens cDNA: FLJ21778 fis, clone H 3.76 429679 NM_006290 Hs.211600 tumor necrosis factor, alpha-induced pro 3.72 428330 L22524 Hs.2256 matrix metalloproteinase 7 (matrilysin, 3.58 408380 AF123050 Hs.44532 diubiquitin 3.58 431103 M57399 Hs.44 pleiotrophin (heparin binding growth fac 3.57 422545 X02761 Hs.287820 fibronectin 1 3.52 418203 X54942 Hs.83758 CDC28 protein kinase 2 3.49 409956 AW103364 Hs.727 inhibin, beta A (activin A, activin AB a 3.48 406687 M31126 matrix metalloproteinase 11 (stromelysin 3.41 414359 M62194 Hs.75929 cadherin 11, type 2, OB-cadherin (osteob 3.36 417259 AW903838 Hs.81800 chondroitin sulfate proteoglycan 2 (vers 3.32 417497 AW402482 Hs.82212 CD53 antigen 3.30 449335 AW150717 Hs.345728 STAT induced STAT inhibitor 3 3.25 445033 AV652402 Hs.72901 mucin 13, epithelial transmembrane 3.23 427274 NM_005211 Hs.174142 colony stimulating factor 1 receptor, fo 3.23 427527 AI809057 Hs.293441 immunoglobulin heavy constant mu 3.22 409142 AL136877 Hs.50758 SMC4 (structural maintenance of chromoso 3.18 453331 AI240665 ESTs 3.15 428036 AW068302 Homo sapiens mRNA for caldesmon, 3′ UTR 3.10 417366 BE185289 Hs.1076 small proline-rich protein 1B (cornifin) 3.09 414622 AI752666 Hs.76669 nicotinamide N-methyltransferase 3.07 418478 U38945 Hs.1174 cyclin-dependent kinase inhibitor 2A (me 3.02 417771 AA804698 Hs.82547 retinoic acid receptor responder (tazaro 2.77 413936 AF113676 Hs.297681 serine (or cysteine) proteinase inhibito 2.75 406755 N80129 Hs.94360 metallothionein 1L 2.75 426653 AA530892 Hs.171695 deal specificity phosphatase 1 2.67 443623 AA345519 Hs.9641 complement component 1, q subcomponent, 2.65 443907 AU076484 Hs.9963 TYRO protein tyrosine kinase binding pro 2.64 422048 NM_012445 Hs.288126 spondin 2, extracellular matrix protein 2.51 410204 AJ243425 Hs.326035 early growth response 1 2.46 438973 AW959503 Hs.60440 ESTs, Weakly similar to serin protease w 2.46 420202 AL036557 Hs.95910 putative lymphocyte G0/G1 switch gene 2.44 422626 AA344932 Hs.118786 metallothionein 2A 2.44 442402 NM_000954 Hs.8272 prostaglandin D2 synthase (21 kD, brain) 2.43 413902 AU076743 Hs.75613 CD36 antigen (collagen type I receptor, 2.42 434868 R50032 Hs.159263 collagen, type VI, alpha 2 2.42 407207 T03651 Hs.336780 tubulin, beta polypeptide 2.30 438855 AW946276 Hs.6441 Homo sapiens mRNA; cDNA DKFZp586J021 (fr 2.29 430413 AW842182 Hs.241392 small inducible cytokine A5 (RANTES) 2.20 424909 S78187 Hs.153752 cell division cycle 25B 2.18 419938 AU076772 Hs.1279 complement component 1, r subcomponent 2.17 416819 U77735 Hs.80205 pim-2 oncogene 2.11 422562 AI962060 Hs.118397 AE-binding protein 1 2.07 414081 AW969976 Hs.279009 matrix Gla protein 2.07 426406 AI742501 Hs.169756 complement component 1, s subcomponent 2.03 443950 NM_001425 Hs.9999 epithelial membrane protein 3 2.01 418323 NM_002118 Hs.1162 major histocompatibility complex, class 1.94 414420 AA043424 Hs.76095 immediate early response 3 1.90 415149 X12451 Hs.78056 cathepsin L 1.72 415213 NM_002933 Hs.78224 ribonuclease, RNase A family, 1 (pancrea 1.70 421848 X15880 Hs.108885 collagen, type VI, alpha 1 1.69 452516 AA058630 Hs.29759 RNA POLYMERASE I AND TRANSCRIPT RELEASE 1.64 427676 AA394062 Hs.300772 tropomyosin 2 (beta) 1.64 415198 AW009480 Hs.943 natural killer cell transcript 4 1.60 424390 AW815657 Hs.182241 interferon induced transmembrane protein 1.59 426825 AL133415 Hs.297753 vimentin 1.51 452363 AI582743 Hs.94953 Homo sapiens, Similar to complement comp 1.46 407694 U77594 Hs.37682 retinoic acid receptor responder (tazaro 1.44

[0392] TABLE 11B Pkey CAT Number Accession 428036 28620_1 AW068302 AI754558 AI750727 AI752631 AA302174 AA327522 M64110 AW859944 AW859989 AI751995 AA769620 AI858829 AI924875 AI888836 AA864291 AI685060 AW088029 AI924908 AW466328 AI093800 AA991651 AI254601 BE004703 AA334442 AW938852 AA194330 AL046953 AA852866 AW391995 W30846 AW662928 W25261 AA042863 R99045 H97060 W03910 H94687 T88984 AL048165 T29632 N31556 N36484 AI798679 AA989355 W23832 AA873789 AI743646 AA363587 AI814748 AW338990 N73740 N83666 AL047816 R24137 R63433 AA524984 AA234043 AA195131 N99903 AA453669 AI240302 AA370271 AI950026 AW771049 AA121476 AA569557 AI752632 AI355594 AI471993 AI159941 N94555 AI753138 N21537 H97881 N25769 AW068044 AA808425 R63380 AA384736 AA384738 AA852352 AI073645 AA527960 AA525036 AA044414 AI752460 AA703064 R01216 AA897183 AI751996 T81078 H95047 AA573642 D58348 N20953 AA437143 N95439 AA579540 AW867056 AA770090 AI085180 AI806799 AA426421 AI572513 R24081 AA853189 AA295620 AA234044 AA371020 AW994984 H20896 AW964438 AA318516 AA318499 AA318727 AA318211 AA318478 AA318444 AA318307 AA318497 AA318448 AA318309 AA318496 AA318213 AA318435 AA318424 AA318217 AA318523 AA318438 AA318487 AA318724 AA593185 AW994985 T69842 AI251813 AA478174 AA447737 T68350 F07712 AA121145 H08973 AA345212 BE000667 AW068210 AW608407 R05674 H16712 N85426 N42354 H85516 BE147991 T28113 R32662 AA384678 AW239275 H82382 AW840700 D58229 C04082 W45394 AW795667 R73973 BE002409 AA042828 AA363555 AJ223812 AA344709 BE149590 R70995 W46881 W90778 N71242 AA534826 AL040676 R23797 H96450 AA062957 D79947 W46960 AW959278 AA295997 AA026215 AW579469 AW365135 AW365134 AW994353 AW972886 AW069166 AA343690 AW888731 AI751527 AA937490 AA937506 AI826715 BE465604 AI925532 AI858109 AW339097 AI858524 AI720571 BE04650 AW384981 AA043908 AA375983 AA525181 AW068366 AW070577 AW891837 N83985 AW182753 AI422979 AI679733 BE006555 AL048166 AI081401 AI888821 AI626043 N37087 AI624140 AI801298 AA600048 AI753947 H89615 N66424 AW069756 AI814880 AI982806 AI754287 AI971816 AW069022 AW069069 AW069454 AA342989 AI077712 AI311467 AI087361 AI801015 W46993 AI281324 AW191963 AI421675 AI300881 AI356670 AA873156 AI004219 AI189685 AA478018 AA076063 AI445222 AI753124 AI521569 AI925026 AI022368 AI475993 H20846 AI223234 AI635123 AA579170 N30442 AW117889 AA807935 AA558975 AI306636 AA888963 AI952591 AI935835 AI445293 H16713 AW139833 AA622122 AA972051 AI280828 H09543 AI453725 AW069613 AI865615 AI753921 AI368782 AI633208 AI446651 W46961 N22201 H82276 C16555 AA291477 AW440535 AW517755 AA669921 AI926777 AW662118 AA553369 N67873 AW023948 C15861 C16601 AI251465 AW079187 BE045090 AI273006 C16390 C16503 AI620823 F13661 N66864 Z21311 C16108 C16089 C16400 AA758273 AI287781 AA864676 AW608074 AW385583 AI589944 AA665817 AW192979 AW469065 M564048 H84715 C16417 AA731072 AA661674 C16487 N29477 AW189997 AI370492 C16471 AA652809 AA936687 AA506512 C16306 AW028413 AI537935 AA528347 C16255 AW029046 C16202 AI868152 AI524662 T94414 AI567041 AI619654 AW008486 AI075624 AA577434 AA345104 T30105 AA932002 C16585 AI750390 AW294265 AI619552 AA669781 AA026678 AW132002 AW263919 C16562 AA759137 AA693351 Z40779 C16577 AA885045 AW073763 R45484 AI520895 U54708 T49285 AI568126 AW006569 AI093317 AL119781 T61046 AI053563 H51958 AF114144 AA305739 AW950394 AW793928 AW793910 AL047737 AV659047 AV659632 AI750389 AA092053 AA092798 H85367 T61597 R23745 Z20418 T78485 AI751528 AW068121 AA853188 AI752459 AA853711 AW950663 R78964 R36359 R21626 R21522 433470 3672_1 AW960564 AA092457 T55890 D56120 T92525 AI815987 BE182608 BE182595 AW080238 M90657 AA347236 AW961686 AW176446 AA304671 AW583735 T61714 AA316968 AI446615 AA343532 AA083489 AA488005 W52095 W39480 N57402 D82638 W25540 W52847 D82729 D58990 BE619182 AA315188 AA308636 AA112474 W76162 AA088544 H52265 AA301631 H80982 AA113786 BE620997 AW651691 AA343799 BE613669 BE547180 BE546656 F11933 AA376800 AW239185 AA376086 BE544387 BE619041 AA452515 AA001806 AA190873 AA180483 AA159546 F00242 AI940609 AI940602 AI189753 T97663 T66110 AW062896 AW062910 AW062902 AI051622 AI828930 AA102452 AI685095 AI819390 AA557597 AA383220 AI804422 AI633575 AW338147 AW603423 AW606800 AW750567 AW510672 AI250777 AA083510 AW629109 AW513200 AA921353 AI677934 AI148698 AI955858 AA173825 AA453027 AI027865 AW375542 AA454099 AA733014 AI591384 R79300 R80023 AA843108 AA626058 AA844898 AW375550 AA889018 AI474275 AW205937 AI052270 AW388117 AW388111 AA699452 AI242230 N47476 H38178 AA366621 AA113196 AA130023 H39740 T61629 AI885973 AW083671 AA179730 AA305757 AI285455 N83956 AA216013 AA336155 AW999959 T97525 AA345349 T91762 AA771981 AI285092 AI591386 BE392486 BE385852 AA682601 AI682884 AA345840 T85477 AA292949 AA932079 AA098791 D82607 T48574 AW752038 C06300 436729 42585_1 BE621807 AI445461 AI346835 AI453743 AI564644 AI928364 AW984527 BE156214 AI694111 AI591358 C17504 C17476 C17963 C18304 AW071625 AI678712 C17732 D57559 H61762 AI720939 AI262930 H27252 AA479712 AI927769 AA291465 AA155661 AI963432 AI567995 AA421678 AI925607 AA292956 AA192448 AW192593 AI865838 AI696905 AI871950 AI911921 BE619741 BE439796 AI161312 AI597801 AI424384 AI093510 AI240988 AW820230 AI492554 BE044033 AW262737 AW008570 AA043216 AW629505 AA136645 AA037722 AA706057 AA088439 AW806193 AW806183 AA479834 BE501957 AA129574 R38114 AA649494 AA524526 BE327120 AW572531 BE219784 BE349186 AW015724 AA043217 AW772000 AI799814 AI671727 AW779725 AA502832 AI470033 AA129575 W38161 AI972739 AA404570 AA627686 AA723200 AA147228 AA903050 AI990245 AI075878 T32487 C06123 AA157944 AI800106 W60075 AI859160 AA478328 AW673152 AA182640 AI990827 AW275048 AW103470 AI298935 AW471421 R79190 AW085158 W45410 AI333170 AW300456 AA662517 T55840 AI823466 AI692846 AA962397 AW191997 AA136658 AI251817 BE044134 AW339104 AW517762 AA724739 R79933 AA411100 AA191349 AA037696 AA190966 AA757735 AW772283 AA010631 H80983 AI769516 H64985 AI061065 AI950693 AA085492 AI245632 H28594 AW088968 BE156360 AI349390 AI621320 AI738844 AW194272 AA148284 AA953883 C06365 AA487893 AI927217 AI918523 AI453453 AI798502 AI189366 AI261359 AI032569 AW338678 AI972899 AI500576 AI872628 AI693030 Z28771 AI985583 AI363829 AW339301 AA581093 AI650338 W60032 AA603586 AI686240 AW242958 AA719173 AI745717 AW675302 AI582462 AI244845 AI565439 F09579 AI918453 AA035576 AI472527 AW351556 AA191414 AW674145 D57558 AI446740 D57845 AI589264 C05782 AA722206 AI432033 R21752 BE157510 AI829640 AI468237 AW384233 AA989662 AI865912 AW197954 AI344941 X75684 AI344943 AW583310 AA988297 AI334860 AI348877 AI798415 D11921 AI377596 AI983655 AI744233 C06111 AI248307 AA948565 AI224807 453331 96214_1 AI240665 T53681 N77468 H51833 AA147247 R75732 C18450 R73999 AI095755 T49904 H03868 AA411580 R33395 AA410586 T48869 D63292 R31981 H12498 H02668 AA035018 R75957 AI803329 R27528 R36203 AI809932 AI808765 R78948 AA411449 AA976929 AI378760 AI378620 T48870 R73906 R75632 H03612 AA909684 N50695 H02580 H12839 N58781 AA742532 AI360919 H03502 BE208298 R68588 AI350463 R31935 AW069127 AA411621 R25671 R36105 H12451 H03869 H51263 AA035486 R25109 R25110 AA147933

[0393] TABLE 11C Pkey Ref Strand Nt_position 401780 7249190 Minus 28397-28617, 28920-29045, 29135-29296, 29411-29567, 29705-29787 30224-30573 401781 7249190 Minus 83215-83435, 83531-83656, 83740-83901, 84237-84393, 84955-85037, 86290-86814 404854 7143420 Plus 14260-14537

[0394] TABLE 12A Genes preferentially expressed in muscle-invasive bladder tumors Pkey ExAccn UnigeneID Unigene Title Seq ID No. 424503 NM_002205 Hs.149609 integrin, alpha 5 (fibronectin receptor, Seq ID No. 1 & 2 400289 X07820 Hs.2258 matrix metalloproteinase 10 (stromelysin Seq ID No. 3 & 4 418007 M13509 Hs.83169 matrix metalloproteinase 1 (interstitial Seq ID No. 5 & 6 418738 AW388633 Hs.6682 solute carrier family 7, (cationic amino Seq ID No. 7 & 8 406964 M21305 FGENES predicted novel secreted protein Seq ID No. 9 & 10 429276 AF056085 Hs.198612 G protein-coupled receptor 51 Seq ID No. 11 & 12 428227 AA321649 Hs.2248 small inducible cytokine subfamily B (Cy Seq ID No. 13 & 14 410102 AW248508 Hs.279727 ESTs; homologue of PEM-3 [Ciona savignyi Seq ID No. 15 & 16 425247 NM_005940 Hs.155324 matrix metalloproteinase 11 (stromelysin Seq ID No. 17 & 18 424735 U31875 Hs.272499 short-chain alcohol dehydrogenase family Seq ID No. 19 & 20 420159 AI572490 Hs.99785 Homo sapiens cDNA: FLJ21245 fis, clone C Seq ID No. 21 & 22 415511 AI732617 Hs.182362 ESTs Seq ID No. 23-25 452461 N78223 Hs.108106 transcription factor Seq ID No. 26 & 27 413324 V00571 Hs.75294 corticotropin releasing hormone Seq ID No. 28 & 29 443211 AI128388 Hs.143655 ESTs Seq ID No. 30 439926 AW014875 Hs.137007 ESTs Seq ID No. 31 & 32 432222 AI204995 gb: an03c03.x1 Stratagene schizo brain S1 Seq ID No. 33 408908 BE296227 Hs.250822 serine/threonine kinase 15 Seq ID No. 34 & 35 443171 BE281128 Hs.9030 TONDU Seq ID No. 36 & 37 432829 W60377 Hs.57772 ESTs Seq ID No. 38 & 39 410553 AW016824 Hs.272068 hypothetical protein MGC14128 Seq ID No. 40 & 41 419183 U60669 Hs.89663 cytochrome P450, subfamily XXIV (vitamin Seq ID No. 42 & 43 425721 AC002115 Hs.159309 uroplakin 1A Seq ID No. 44 & 45 420370 Y13645 Hs.97234 uroplakin 2 Seq ID No. 46 & 47 437852 BE001836 Hs.256897 ESTs, Weakly similar to dJ365O12.1 [H. sa Seq ID No. 48 & 49 428664 AK001666 Hs.189095 similar to SALL1 (sal (Drosophila)-like Seq ID No. 50 & 51 456034 AW450979 gb: UI-H-BI3-ala-a-12-0-UI.s1 NCL_CGAP_Su Seq ID No. 52 421110 AJ250717 Hs.1355 cathepsin E Seq ID No. 53 & 54 451668 Z43948 Hs.326444 cartilage acidic protein 1 Seq ID No. 55-60 408243 Y00787 Hs.624 interleukin 8 Seq ID No. 61 & 62 440304 BE159984 Hs.125395 ESTs Seq ID No. 63 & 64 414918 AI219207 Hs.72222 hypothetical protein FLJ13459 Seq ID No. 65 & 66 418867 D31771 Hs.89404 msh (Drosophila) homeo box homolog 2 Seq ID No. 67 & 68 426088 AF038007 Hs.166196 ATPase, Class I, type 8B, member 1 Seq ID No. 69 & 70 405033 C1002652*: gi|544327|sp|Q04799|FMO5_RABIT Seq ID No. 71 & 72 422282 AF019225 Hs.114309 apolipoprotein L Seq ID No. 73 & 74 425852 AK001504 Hs.159651 death receptor 6, TNF superfamily member Seq ID No. 75 & 76 400844 NM_003105*: Homo sapiens sortilin-related Seq ID No. 77 & 78 404875 NM_022819*: Homo sapiens phospholipase A2 Seq ID No. 79 & 80 422809 AK001379 Hs.121028 hypothetical protein FLJ10549 Seq ID No. 81 & 82 431347 AI133461 Hs.251664 insulin-like growth factor 2 (somatomedi Seq ID No. 83 & 84 413804 T64682 gb: yc48b02.r1 Stratagene liver (937224) Seq ID No. 85 & 86 444163 AI126098 FGENESH predicted RNaseH domain-containi Seq ID No. 87-89 444444 AI149332 Hs.14855 ESTs Seq ID No. 90 & 91 427747 AW411425 Hs.180655 serine/threonine kinase 12 Seq ID No. 92 & 93 419741 NM_007019 Hs.93002 ubiquitin carrier protein E2-C Seq ID No. 94 & 95 420281 AI623693 Hs.323494 Predicted cation efflux pump Seq ID No. 96 & 97 402305 C19000735*: gi|4508027|ref|NP_003414.1|z Seq ID No. 98-100 436608 AA628980 down syndrome critical region protein DS Seq ID No. 101 & 102 427239 BE270447 ubiquitin carrier protein Seq ID No. 103 & 104 413278 BE563085 Hs.833 interferon-stimulated protein, 15 kDa Seq ID No. 105 & 106 424008 R02740 Hs.137555 putative chemokine receptor; GTP-binding Seq ID No. 107 & 108 414907 X90725 Hs.77597 polo (Drosophia)-like kinase Seq ID No. 109 & 110 421379 Y15221 Hs.103982 small inducible cytokine subfamily B(Cy Seq ID No. 111 & 112 426028 NM_001110 Hs.172028 a disintegrin and metalloproteinase doma Seq ID No. 113 & 114 417079 U65590 Hs.81134 interleukin 1 receptor antagonist Seq ID No. 115 & 116 401093 C12000586*: gi|6330167|dbj|BAA86477.1|(A Seq ID No. 117-119 422247 U18244 Hs.113602 solute carrier family 1 (high affinity a Seq ID No. 120 & 121 449722 BE280074 Hs.23960 cyclin B1 Seq ID No. 122 & 123 423673 BE003054 Hs.1695 matrix metalloproteinase 12 (macrophage Seq ID No. 124 & 125 418478 U38945 Hs.1174 cyclin-dependent kinase inhibitor 2A (me Seq ID No. 126-133 439606 W79123 Hs.58561 G protein-coupled receptor 87 Seq ID No. 134 & 135 418543 NM_005329 Hs.85962 hyaluronan synthase 3 Seq ID No. 136 & 137 418678 NM_001327 Hs.167379 cancer/testis antigen (NY-ESO-1) Seq ID No. 138-141 428182 BE386042 Hs.293317 ESTs, Weakly similar to GGC1_HUMAN G ANT Seq ID No. 142 & 143 427335 AA448542 Hs.251677 G antigen 7B Seq ID No. 144 & 145 409420 Z15008 Hs.54451 laminin, gamma 2 (nicein (100 kD), kalini Seq ID No. 146 & 147 404440 NM_021048: Homo sapiens melanoma antigen, Seq ID No. 148 & 149 433091 Y12642 Hs.3185 lymphocyte antigen 6 complex, locus D Seq ID No. 150 & 151 408380 AF123050 Hs.44532 diubiquitin Seq ID No. 152 & 153 409893 AW247090 Hs.57101 minichromosome maintenance deficient (S. Seq ID No. 154 & 155 424905 NM_002497 Hs.153704 NIMA (never in mitosis gene a)-related k Seq ID No. 156 & 157 438817 AI023799 ESTs Seq ID No. 158 421478 AI683243 Hs.97258 ESTs, Moderately similar to S29539 ribos Seq ID No. 159 & 160 431515 NM_012152 Hs.258583 EDG-7 (endothelial differentiation, lys Seq ID No. 161 & 162 433159 AB035898 Hs.150587 kinesin-like protein 2 Seq ID No. 163 & 164 432441 AW292425 Hs.163484 ESTs Seq ID No. 165 425726 AF085808 Hs.159330 uroplakin 3 Seq ID No. 166 & 167 448045 AJ297436 Hs.20166 prostate stem cell antigen Seq ID No. 168 & 169 431846 BE019924 Hs.271580 uroplakin 1B Seq ID No. 170 & 171 437044 AL035864 Hs.69517 differentially expressed in Fanconi's an Seq ID No. 172 & 173 444381 BE387335 Hs.283713 ESTs, Weakly similar to S64054 hypotheti Seq ID No. 174 & 175 400303 AA242758 Hs.79136 LIV-1 protein, estrogen regulated Seq ID No. 176 & 177 452747 BE153855 Hs.61460 Ig superfamily receptor LNIR Seq ID No. 178 & 179 400297 AI127076 Hs.306201 hypothetical protein DKFZp564O1278 Seq ID No. 180 & 181 428484 AF104032 Hs.184601 solute carrier family 7 (cationic amino Seq ID No. 182 & 183 429211 AF052693 Hs.198249 gap junction protein, beta 5 (connexin 3 Seq ID No. 184 & 185 417389 BE260964 Hs.82045 midkine (neurite growth-promoting factor Seq ID No. 186 & 187 445537 AJ245671 Hs.12844 EGF-like-domain, multiple 6 Seq ID No. 188 & 189 423961 D13666 Hs.136348 periostin (OSF-2os) Seq ID No. 190 & 191 417433 BE270266 Hs.82128 5T4 oncofetal trophoblast glycoprotein Seq ID No. 192 & 193 444781 NM_014400 Hs.11950 GPI-anchored metastasis-associated protein homolog Seq ID No. 194 & 195 430486 BE062109 Hs.241551 chloride channel, calcium activated, family member 2 Seq ID No. 196 & 197 425650 NM_001944 Hs.1925 desmoglein 3 (pemphigus vulgaris antigen) Seq ID No. 198 & 199 409103 AF251237 Hs.112208 XAGE-1 protein Seq ID No. 200 & 201 129404 AI267700 ESTs Seq ID No. 202 403047 NM_005656*: Homo sapiens transmembrane protease Seq ID No. 203 & 204 439738 BE246502 Hs.9598 sema domain, immunoglobulin domain (Ig), transmem Seq ID No. 205 & 206

[0395] TABLE 12B Pkey CAT Number Accession 413804 1390710_1 T64682 BE168190 BE168256 427239 27647_1 BE270447 AW409921 BE207288 BE207170 D56355 BE263223 BE408171 BE262243 BE392439 BE292738 BE261776 BE314300 BE267719 BE268715 BE513876 BE295291 BE297066 AA210923 BE407519 H51344 BE622905 AW248281 AW250313 T19021 AA355115 AA316879 BE269633 BE621936 AA290724 AA380031 AA993616 BE301331 W79220 H73020 AW797850 BE274611 BE314315 BE542407 BE562063 BE312868 BE278817 BE252503 AA426470 M91670 NM_014501 BE264533 AI884863 AI884942 AI678077 AA829937 AI869333 AW273060 AA906924 AI571293 AW172642 AA582906 AW674596 AW300936 AW615753 AW615587 AW665495 AI859296 AA594105 AA928110 AI038859 AI589898 AA828316 AA938955 AA283711 AW170665 BE047759 AW732128 AI015067 AW070748 AW248955 AA975490 AA211097 AI826097 AA826730 AA994072 AI367867 W74508 AI086474 AA827720 AI922589 AW000868 W58033 AA991461 BE048131 M91218 AA876186 AA661759 AI123879 AI089508 AW272915 AI566244 AW245061 AA688299 AW250988 AI953468 AI891144 AW089131 AI471577 AA293354 AA464019 BE044549 T29587 AW956171 BE537716 BE269400 AA918328 AI536087 AA969243 AW075033 BE139361 AI340589 AI250128 AI247038 BE138953 AW075177 AI307208 BE049086 AW302327 AI054335 AI345565 AI334881 AI252075 AI254494 AW075006 AW302733 AW302738 AI054057 AI054217 AI054172 AI054302 AI053722 AI054060 AI054079 AW075181 AI307473 AI312145 AI340734 AI334909 AW071374 BE138502 AW074809 AW301901 AI251662 AI307559 BE139228 AI254764 AW073049 AI251264 AI802837 AW271867 AI307442 AW075100 AW073456 AW072496 AI270787 AW271039 AW071307 AI610913 AW071289 AI251232 AI251262 AW073656 AW072901 AI307493 AI255068 AI251289 AI252160 AI271496 AI252427 AW073469 AW071420 AI270156 AI252926 AI252839 AI252868 AW072520 AW073433 AI340643 AI802854 AI334733 AI583896 AW071311 AI802853 AI289711 AI345036 AW072513 AI348921 AI307478 AI305762 BE139315 AW271034 AI334886 AI340619 AW470478 BE139260 BE138965 AW302085 BE041872 AW268964 432222 343347_1 AI204995 AW827539 AW969908 AW440776 AA528756 436608 42361_3 AA628980 AI126603 BE504035 438817 465592_1 AI023799 AA826307 AI683094 AI307373 AI870547 AW979007 444163 593658_1 AI126098 AI184746 AI148521 456034 142696_1 AW450979 AA136653 AA136656 AW419381 AA984358 AA492073 BE168945 AA809054 AW238038 BE011212 BE011359 BE011367 BE011368 BE011362 BE011215 BE011365 BE011363

[0396] TABLE 12C Pkey Ref Strand Nt_position 400844 9188605 Plus 24746-24872, 25035-25204 401093 8516137 Minus 22335-23166 402305 7328724 Plus 40832-41362 404440 7528051 Plus 80430-81581 404875 9801324 Plus 96588-96732, 97722-97831 405033 7107731 Minus 142358-142546

[0397] TABLE 13 Seq ID NO: 1   DNA sequence: Nucleic Acid Accession #: NM_002205 Coding sequence:   24 . . . 3173 1          11         21         31         41         51 |          |          |          |          |          | CACGACAGGG AACAGCGGGC GCTATGGGGA GCCGGACGCC AGAGTCCCCT CTCCACGCCG 60 TGCAGCTGCC CTGCCCCCCC CCGCGCCCAC CCCCGCTCGT GCCGCTGCTG TTGCTGCTCG 120 TGCC0CCGCC ACCCAGCGTC GGGGGCTTCA ACTTAGACGC GGAGGCCCCA GCAGTACTCT 180 CGGGGCCCCC CCCCTCCTTC TTCGGATTCT CAGTGGAGTT TTACCGGCCG GGAACAGACG 240 CCCTCAGTGT GCTGGTGCCA CCACCCAAGG CTAATACCAG CCAGCCAGGA GTGCTGCAGG 300 GTGCTUCTGT CTACCTCTGT CCTTGGGGTG CCAGCCCCAC ACAGTGCACC CCCATTGAAT 360 TTGACAGCAA AGGCTCTCGG CTCCTGGAGT CCTCACTGTC CACCTCAGAG GGAGAGGAGC 420 CTGTGGAGTA CAAGTCCTTG CAGTGGTTCG GGGCAACAGT TCGAGCCCAT GGCTCCTCCA 480 TCTTGGCATG CGCTCCACTG TACAGCTGGC GCACACAGAA CGAGCCACTG AGCGACCCCG 540 TGGGCACCTC CTACCTCTCC ACAGATAACT TCACCCGAAT TCTGGAGTAT GCACCCTGCC 600 GCTCAGATTT CAGCTGGGCA GCAGGACAGG GTTACTGCCA AGGAGGCTTC ACTGCCGACT 660 TCACCAAGAC TGGCCGTGTG GTTTTAGGTG GACCAGGAAG CTATTTCTGG CAAGGCCAGA 720 TCCTGTCTGC CACTCAGGAG CAGATTGCAG AATCTTATTA CCCCGAGTAC CTGATCAACC 780 TGGTTCAGGG GCAGCTGCAG ACTCGCCAGG CCAGTTCCAT CTATGATGAC AGCTACCTAG 840 GATACTCTGT GUCTGTTGGT GAATTCAGTG GTGATGACAC AGAAGACTTT GTTGCTGGTG 900 TGCCCAAAGG GAACCTCACT TACCGCTATG TCACCATCCT TAATGGCTCA GACATICCAT 960 CCCTCTACAA CTTCTCAGGG GAACAGATGG CCTCCTACTT TGGCTATGCA GTGGCCGCCA 1020 CAGACGTCAA TGGGGACGGG CTGGATGACT TGCTGGTGGG GGCACCCCTG CTCATGGATC 1080 GGACCCCTGA CGGGCGGCCT CAGGAGGTGG GCAGGGTCTA CGTCTACCTG CACCACCCAG 1140 CCGGCATAGA GCCCACGCCC ACCCTTACCC TCACTGGCCA TGATGAGTTT GGCCGATTTG 1200 GCAGCTCCTT GACCCCCCTG GGGGACCTGG ACCAGGATGG CTACAATGAT GTGGCCATCG 1260 GGGCTCCCTT TGGTGGGGAG ACCCAGCAGG GAGTAGTGTT TGTATTTCCT GGGGGCCCAG 1320 GAGGGCTGGG CTCTAAGCCT TCCCAGGTTC TGCAGCCCCT GTGGGCAGCC AGCCACACCC 1380 CAGACTTCTT TGGCTCTGCC CTTCGAGGAG GCCGAGACCT GGATGGCAAT GGATATCCTG 1440 ATCTGATTGT GGGGTCCTTT GGTGTGGACA AGGCTGTGGT ATACAGGGGC CGCCCCATCG 1500 TGTCCGCTAG TGCCTCCCTC ACCATCTTCC CCGCCATGTT CAACCCAGAG GAGCGGAGCT 1560 GCAGCTTAGA GGGGAACCCT GTGGCCTGCA TCAACCTTAG CTTCTGCCTC AATGCTTCTG 1620 GAAAACACGT TGCTGACTCC ATTGGTTTCA CAGTGGAACT TCAGCTGGAC TGGCAGAAGC 1680 AGAAGGGAGG GGTACGGCGG GCACTGTTCC TGGCCTCCAG GCAGGCAACC CTGACCCAGA 1740 CCCTGCTCAT CCAGAATGGG GCTCGAGAGG ATTGCAGAGA GATGAAGATC TACCTCAGGA 1800 ACGAGTCAGA ATTTCGAGAC AAACTCTCGC CGATTCACAT CGCTCTCAAC TTCTCCTTGG 1860 ACCCCCAAGC CCCAGTGGAC AGCCACGGCC TCAGGCCAGC CCTACATTAT CAGAGCAAGA 1920 GCCGGATAGA GGACAAGGCT CAGATCTTGC TGGACTGTGG AGAAGACAAC ATCTGTGTGC 1980 CTGACCTGCA GCTGGAAGTG TTTGGGGAGC AGAACCATGT GTACCTGGGT GACAAGAATG 2040 CCCTGAACCT CACTTTCCAT GCCCAGAATG TGGGTGAGGG TGGCGCCTAT GAGGCTGAGC 2100 TTCGGGTCAC CGCCCCTCCA GAGGCTGAGT ACTCAGGACT CGTCAGACAC CCAGGGAACT 2160 TCTCCAGCCT GAGCTGTGAC TACTTTGCCG TGAACCAGAG CCGCCTGCTG GTGTGTGACC 2220 TGGGCAACCC CATGAAGGCA GGAGCCAGTC TGTGGGGTGG CCTTCGGTTT ACAGTCCCTC 2280 ATCTCCGGGA CACTAAGAAA ACCATCCAGT TTGACTTCCA GATCCTCAGC AAGAATCTCA 2340 ACAACTCGCA AAGCGACGTG GTTTCCTTTC GGCTCTCCGT GGAGGCTCAG GCCCAGGTCA 2400 CCCTGAACGG TGTCTCCAAG CCTGAGGCAG TGCTATTCCC AGTAAGCGAC TGGCATCCCC 2460 GAGACCAGCC TCAGAAGGAG GAGGACCTGG GACCTGCTGT CCACCATGTC TATGAGCTCA 2520 TCAACCAAGG CCCCAGCTCC ATTAGCCAGG GTGTGCTGGA ACTCAGCTGT CCCCAGGCTC 2580 TGGAAGGTCA GCAGCTCCTA TATGTGACCA GAGTTACGGG ACTCAACTGC ACCACCAATC 2640 ACCCCATTAA CCCAAAGGGC CTGGAGTTGG ATCCCGAGGG TTCCCTGCAC CACCAGCAAA 2700 AACGGGAAGC TCCAAGCCGC AGCTCTGCTT CCTCGGGACC TCAGATCCTG AAATGCCCGG 2760 AGGCTGAGTG TTTCAGGCTG CGCTGTGAGC TCGGGCCCCT GCACCAACAA GAGAGCCAAA 2820 GTCTGCAGTT GCATTTCCGA GTCTGGGCCA AGACTTTCTT GCACCGGGAG CACCAGCCAT 2880 TTAGCCTGCA GTGTGAGGCT GTGTACAAAG CCCTGAAGAT GCCCTACCGA ATCCTGCCTC 2840 GGCAGCTGCC CCAAAAAGAG CGTCAGGTGG CCACAGCTGT GCAATGGACC AAGGCAGAAG 3000 GCAGCTATGG CGTCCCACTG TGGATCATCA TCCTAGCCAT CCTGTTTGGC CTCCTGCTCC 3060 TAGGTCTACT CATCTACATC CTCTACAAGC TTGGATTCTT CAAACGCTCC CTCCCATATG 3120 GCACCGCCAT GGAAAAAGCT CAGCTCAAGC CTCCAGCCAC CTCTGATGCC TGAGTCCTCC 3180 CAATTTCAGA CTCCCATTCC TGAAGAACCA GTCCCCCCAC CCTCATTCTA CTGAAAAGGA 3240 GGGGTCTGGG TACTTCTTGA AGGTGCTGAC GGCCAGGGAG AAGCTCCTCT CCCCAGCCCA 3300 GAGACATACT TGAAGGGCCA GAGCCAGGGG GGTGAGGAGC TGGGGATCCC TCCCCCCCAT 3360 GCACTGTGAA GGACCCTTGT TTACACATAC CCTCTTCATG GATGGGGGAA CTCAGATCCA 3420 GGGACAGAGG CCCAGCCTCC CTGAAGCCTT TGCATTTTGG AGAGTTTCCT GAAACAACTG 3480 GAAAGATAAC TAGGAAATCC ATTCACAGTT CTTTGGGCCA GACATGCCAC AAGGACTTCC 3540 TGTCCAGCTC CAACCTGCAA AGATCTGTCC TCAGCCTTGC CAGAGATCCA AAAGAAGCCC 3600 CCAGTAAGAA CCTGGAACTT GGGGAGTTAA GACCTGGCAG CTCTGGACAG CCCCACCCTG 3660 GTGGGCCAAC AAAGAACACT AACTATGCAT GGTGCCCCAG GACCAGCTCA GGACAGATGC 3720 CACAAGGATA GATGCTGGCC CAGGGCCAGA GCCCAGCTCC AAGGGGAATC AGAACTCAAA 3780 TGGGGCCAGA TCCAGCCTGG GGTCTGGAGT TGATCTGGAA CCCAGACTCA GACATTGGCA 3840 CCAATCCAGG CAGATCCAGG ACTATATTTG GGCCTGCTCC AGACCTGATC CTGGAGGCCC 3900 AGTTCACCCT GATTTAGGAG AAGCCAGGAA TTTCCCAGGA CCTGAAGGGG CCATGATGGC 3960 AACAGATCTG GAACCTCAGC CTGGCCAGAC ACAGGCCCTC CCTGTTCCCC AGAGAAAGGG 4020 GAGCCCACTG TCCTGGGCCT GCAGAATTTG GGTTCTGCCT GCCAGCTGCA CTGATGCTGC 4080 CCCTCATCTC TCTGCCCAAC CCTTCCCTCA CCTTGGCACC AGACACCCAG GACTTATTTA 4140 AACTCTGTTG CAAGTGCAAT AAATCTGACC CAGTGCCCCC ACTGACCAGA ACTAGAAAAA 4200 AAAA Seq ID NO: 2   Protein sequence: Protein Acceecion #: NP_002196.1 1          11         21         31         41         51 |          |          |          |          |          | MGSRTPESPL NAVQLRWGPR RRPPLVPLLL LLVPPPPRVG GFNLDAEAPA VLSGPPGSFP 60 GFSVEFYRPG TDGVSVLVGA PKANTSQPGV LQGGAVYLCP WGASPTQCTP IEPDSKGSRL 120 LESSLSSSEG EEPVEYKSLQ WFGATVRARG SSILACAPLY SWRTEKEPLS DPVGTCYLST 180 DNPTRILEYA PCRSDFSWAA GQGYCQGGPS AEPTKTGRVV LGGPGSYFNQ GQILSATQEQ 240 IAESYYPEYL INLVQGQLQT RQASSIYDDS YLGYSVAVGE PSGDDTEDPV AGVPKGNLTY 300 GYVTILNGSD INSLYNPGGE QMASYFGYAV AATDVNGDGL DDLLVGAPLL MDRTPDGRPQ 360 EVGRVYVYLQ HPAGIEPTPT LTLTGHDEFG RFGSSLTPLG DLDQDGYNDV AIGAPEGGET 420 QQGVVFVPPG GPGGLGSEPS QVLQPLWAAS NTPDFFGSAL RGGRGLDGNG YPDLIVGSFG 480 VDKAVVYRGR PIVSASASLT IFPANPNPEE RSCSLEGNPV ACINLSFCLN ASGENVADSI 540 GPTVELQLDW QKQKGGVRRA LFLASRQATL TQTLLIQNGA REGCREMEIY LRNESEFRDK 600 LSPINIALNF SLDPQAPVDS NGLRPALHYQ SKSRIEDKAQ ILLGCCEDNI CVPDLQLEVF 660 GEQNHVYLGD KNALNLTFNA QNVGEGGAYE AELRVTAPPE AEYSGLVRNP GNFSSLSCDY 720 EAVNQSRLLV CDLGNPMKAG ASLWGGLRFT VPNLRDTKKT IQFDFQILSK NLNNSQSDVV 780 SFRLSVEAQA QVTLNGVSKP EAVLFPVSDW NPRDQPQKEE DLGPAVNNVY ELINQGPSSI 840 SQGVLELSCP QALEGQQLLY VTRVTGLNCT TNHPINPKGL ELDPEGSLNH QQKREAPSRS 900 SASSGPQILK CPEAECFRLR CELGPLNQQE SQSLQLNPRV WAKTFLQREN QPFSLQCEAV 960 YKALKNPYRI LPRQLPQKER QVATAVQWTK AEGSYGVPLW IIILAILFGL LLLGLLIYIL 1020 YKLGPPKRSL PYGTANEKAQ LKPPATSDA Seq ID NO: 3   DNA sequence: Nucleic Acid Accession #: NM_002425 Coding sequence:   23 . . . 1453 1          11         21         31         41         51 |          |          |          |          |          | AAAGAAGGTA AGGGCAGTGA GAATGATGCA TCTTGCATTC CTTGTGCTGT TGTGTCTGCC 60 AGTCTGCTCT GCCTATCCTC TGAGTGGGGC AGCAAAAGAG GAGGACTCCA ACAAGGATCT 120 TGCCCAGCAA TACCTAGAAA AGTACTACAA CCTCGAAAAG GATGTGAAAC AGTTTAGAAG 180 AAAGGACAGT AATCTCATTG TTAAAAAAAT CCAAGGAATG CAGAAGTTCC TTGGGTTGGA 240 GGTGACAGGG AAGCTAGACA CTGACACTCT GGAGGTGATG CGCAAGCCCA GGTGTGGAGT 300 TCCTGACGTT GGTCACTTCA GCTCCTTTCC TGGCATGCCG AAGTGGAGGA AAACCCACCT 360 TACATACAGG ATTGTGAATT ATACACCAGA TTTGCCAAGA GATGCTGTTG ATTCTGCCAT 420 TGAGAAAGCT CTGAAAGTCT GGGAAGAGGT GACTCCACTC ACATTCTCCA GGCTGTATGA 480 AGGAGAGGCT GATATAATGA TCTCTTTCGC AGTTAAAGAA CATGGAGACT TTTACTCTTT 540 TGATGGCCCA GGACACAGTT TGGCTCATGC CTACCCACCT GGACCTGGGC TTTATGGAGA 600 TATTCACTTT GATGATGATG AAAAATGGAC AGAAGATGCA TCAGGCACCA ATTTATTCCT 660 CGTTGCTGCT CATGAACTTG GCCACTCCCT GGGGCTCTTT CACTCAGCCA ACACTGAAGC 720 TTTGATGTAC CCACTCTACA ACTCATTCAC AGAGCTCGCC CAGTTCCGCC TTTCGCAAGA 780 TGATGTGAAT GGCATTCAGT CTCTCTACGG ACCTCCCCCT GCCTCTACTG AGCAACCCCT 840 GGTGCCCACA AAATCTGTTC CTTCGGGATC TGAGATGCCA GCCAAGTGTG ATCCTGCTTT 900 GTCCTTCGAT GCCATCAGCA CTCTGAGGGG AGAATATCTG TTCTTTAAAG ACAGATATTT 960 TTGGCGAAGA TCCCACTGGA ACCCTGAACC TGAATTTCAT TTGATTTCTG CATTTTGGCC 1020 CTCTCTTCCA TCATATTTGG ATGCTGCATA TGAAGTTAAC ACCAGGGACA CCGTTTTTAT 1080 TTTTAAAGGA AATGAGTTCT GGGCCATCAG AGGAAATGAG GTACAAGCAG GTTATCCAAG 1140 AGGCATCCAT ACCCTGGGTT TTCCTCCAAC CATAAGGAAA ATTGATGCAG CTGTTTCTGA 1200 CAAGGAAAAG AAGAAAACAT ACTTCTTTGC AGCGGACAAA TACTGGAGAT TTGATGAAAA 1260 TAGCCAGTCC ATGGAGCAAG GCTTCCCTAG ACTAATAGCT GATGACTTTC CAGGAGTTGA 1320 GCCTAAGGTT GATGCTGTAT TACAGGCATT TGGATTTTTC TACTTCTTCA GTGGATCATC 1380 ACAGTTTGAG TTTGACCCCA ATGCCAGGAT GGTGACACAC ATATTAAAGA GTAACAGCTG 1440 GTTACATTGC TAGGCGAGAT AGGGGGAAGA CAGATATGGG TGTTTTTAAT AAATCTAATA 1500 ATTATTCATC TAATGTATTA TGAGCCAAAA TGGTTAATTT TTCCTGCATG TTCTGTGACT 1560 GAAGAAGATG AGCCTTGCAG ATATCTGCAT GTGTCATGAA GAATGTTTCT GGAATTCTTC 1620 ACTTGCTTTT GAATTGCACT GAACAGAATT AAGAAATACT CATGTGCAAT AGGTGAGAGA 1680 ATGTATTTTC ATAGATGTGT TATTACTTCC TCAATAAAAA GTTTTATTTT GGGCCTGTTC 1740 CTT Seq ID NO: 4   Protein sequence: Protein Accession #: NP_002416 1          11         21         31         41         51 |          |          |          |          |          | MMNLAFLVLL CLPVCSAYPL SGAAKEEDSN KDLAQQYLEK YYNLEKDVKQ FRRKDSNLIV 60 KKIQGMQKFL GLEVTGKLDT DTLEVNRKPR CGVPDVGNFS SFPGMPKWRK TELTYRIVNY 120 TPDLPRDAVD SAIEKALKVW EEVTPLTFSR LYEGEADIMI SFAVKENGDF YSFDGPGNSL 180 ANAYPPGPGL YGDINFDDDE KWTEDASGTN LFLVAANELG NSLGLFNSAN TEALMYPLYN 240 SFTELAQFRL SQDDVNGIQS LYGPPPASTE EPLVPTKSVP SGSEMPAKCD PALSFDAIST 300 LRGEYLFFKD RYFNRRSNWN PEPEFNLISA FWPSLPSYLD AAYEVNSRDT VFIFKGNEFW 360 AIRGNEVQAG YPRGINTLGF PPTIRKIDAA VSGKEKKKTY FFAADKYWRF DENSQSMEQG 420 FGNLIADDEP GVEPKVDAVL GAFGFFYFFS GSSQPEFDPN ANMVTHILKS NSWLNC Seq ID NO: 5   DNA sequence: Nucleic Acid Accession #: NN_002421 Coding sequence:   72 . . . 1481 1          11         21         31         41         51 |          |          |          |          |          | GGGATATTGC AGTAGCAAGA GGCTGGGAAG CCATCACTTA CCTTGCACTG AGAAAGAAGA 60 CAAACCCCAC TATCCACAGC TTTCCTCCAC TGCTGCTGCT GCTGTTCTGG GGTGTGGTGT 120 CTCACAGCTT CCCAGCGACT CTAGAAACAC AAGAGCAAGA TGTGGACTTA GTCCAGAAAT 180 ACCTGGAAAA ATACTACAAC CTGAAGAATG ATGGGAGGCA AGTTGAAAAG CGGAGAAATA 240 GTGGCCCAGT GGTTGAAAAA TTGAAGCAAA TGCAGCAATT CTTTGGGCTG AAAGTGACTC 300 GGAAACCAGA TGCTGAAACC CTGAACGTGA TGAAGCACCC CAGATGTGGA GTGCCTGATG 360 TCGCTCAGTT TCTCCTCACT GACGGGAACC CTCGCTGGGA GCAAACACAT CTGACCTACA 420 GGATTGAAAA TTACACGCCA GATTTGCCAA GAGCAGATGT GGACCATGCC ATTGAGAAAG 480 CCTTCCAACT CTGGAGTAAT GTCACACCTC TGACATTCAC CAAGGTCTCT GAGGGTCAAG 540 CAGACATCAT GATATCTTTT GTCAGGGGAG ATCATCGGGA CAACTCTCCT TTTGATGGAC 600 CTGGAGGAAA TCTTGCTCAT GCTTTTCAAC CAGGCCCAGG TATTGGAGGG GATGCTCATT 660 TTGATGAAGA TGAAAGGTGG ACCAACAATT TCAGAGAGTA CAACTTACAT CGTGTTGCGG 720 CTCATGAACT CGGCCATTCT CTTGGACTCT CCCATTCTAC TGATATCGGG GCTTTGATGT 780 ACCCTAGCTA CACCTTCAGT GGTGATGTTC AGCTAGCTCA GGATGACATI GATGGCATCC 840 AAGCCATATA TGGACGTTCC CAAAATCCTG TCCAGCCCAT CGGCCCACAA ACCCCAAAAG 900 CGTGTGACAG TAAGCTAACC TTTGATGCTA TAACTACGAT TCGGGGAGAA GTGATGTTCT 960 TTAAAGACAG ATTCTACATG CGCACAAATC CCTTCTACCC GGAAGTTGAG CTCAATTTCA 1020 TTTCTGTTTT CTGGCCACAA CTGCCAAATG GGCTTGAAGC TGCTTACGAA TTTGCCGACA 1080 GAGATGAAGT CCGGTTTTTC AAAGGGAATA ACTACTGGGC TGTTCAGGGA CAGAATGTGC 1140 TACACGGATA CCCCAAGGAC ATCTACAGCT CCTTTGGCTT CCCTAGAACT GTGAAGCATA 1200 TCGATGCTGC TCTTTCTGAG GAAAACACTG GAAAAACCTA CTTCTTTGTT GCTAACAAAT 1260 ACTGGAGGTA TGATGAATAT AAACGATCTA TGGATCCAGG TTATCCCAAA ATGATAGCAC 1320 ATGACTTTCC TGGAATTGGC CACAAAGTTG ATGCAGTTTT CATGAAAGAT GGATTTTTCT 1380 ATTTCTTTCA TGGAACAAGA CAATACAAAT TTGATCCTAA AACGAAGAGA ATTTTGACTC 1440 TCCAGAAAGC TAATAGCTGG TTCAACTGCA GGAAAAATTG AACATTACTA ATTTGAATGG 1500 AAAACACATG GTGTGAGTCC AAAGAAGGTG TTTTCCTGAA GAACTGTCTA TTTTCTCAGT 1560 CATTTTTAAC CTCTAGAGTC ACTGATACAC AGAATATAAT CTTATTTATA CCTCAGTTTG 1620 CATATTTTTT TACTATTTAG AATGTAGCCC TTTTTGTACT GATATAATTT AGTTCCACAA 1680 ATGGTGGGTA CAAAAAGTCA AGTTTGTGGC TTATGGATTC ATATAGGCCA GAGTTGCAAA 1740 GATCTTTTCC AGACTATGCA ACTCTGACGT TGATGCCAGA GAGCAGCTTC AGTGACAAAC 1800 ATATCCTTTC AAGACAGAAA GAGACAGGAG ACATGAGTCT TTGCCGGAGG AAAAGCAGCT 1860 CAAGAACACA TGTGCAGTCA CTGGTGTCAC CCTGGATAGG CAAGGGATAA CTCTTCTAAC 1920 ACAAAATAAG TGTTTTATGT TTGGAATAAA GTCAACCTTG TTTCTACTGT TTT Seq ID NO: 6   Protein sequence: Protein Accession 4: NP_002412 1          11         21         31         41         51 |          |          |          |          |          | MHSPPPLLLL LFWGVVSHSF PATLETQEQD VGLVQKYLEK YYNLKNGGRG VEKNRNSGPV 60 VEKLKQMQEP FGLKVTGKPD AETLKVMKQP RCGVPGVAQF VLTEGNPRWE QTNLTYNTEN 120 YTPGLPNAGV GNAIEKAFQL WSNVTPLTFT KVSEGQAGIM ISFVRGGHND NSPPGGPGGN 180 LANAFQPGPG IDGGAHEDED ENWTNNPNNY NLHRVAANNL GNSLGLSNST GIDALMYPSY 240 TFSGGVQLAQ GGIDGIQAIY GNSQNPVQPI DPQTPKACGS KLTFGAITTI NDEVNFFKGN 300 FYMRTNPFYP EVELNFISVF WPQLPNGLNA AYEFAGRGSV RFFKGNKYWA VQGQNVLHGY 360 PKDIYSSFGP PNTVKNIDAA LSEENTGKTY FFVANKYWRY GEYKESMGPG YPKMIANGFP 420 GIDNKVGAVF MEGGEFYPEN GTRQYKFGPK TKRILTLQKA NSWFNCNKN Seq ID NO: 7   DNA sequence: Nucleic Acid Accession 4: NM_014331 Coding sequence:    1 . . . 1506 1          11         21         31         41         51 |          |          |          |          |          | ATGGTCAGAA AGCCTGTTGT GTCCACCATC TCCAAAGGAG GTTACCTGCA GGGAAATGTT 60 AACGGGAGGC TGCCTTCCCT GGGCAACAAG GAGCCACCTG GGCAGGAGAA AGTGCAGCTG 120 AAGAGGAAAG TCACTTTACT GAGGGGAGTC TCCATTATCA TTGGCACCAT CATTGGAGCA 180 GGAATCTTCA TCTCTCCTAA GGGCGTGCTC CAGAACACGG GCAGCGTGGG CATGTCTCTG 240 ACCATCTGGA CGGTGTGTGG GGTCCTGTCA CTATTTGGAG CTTTGTCTTA TGCTGAATTG 300 GGAACAACTA TAAAGAAATC TGGAGGTCAT TACACATATA TTTTGGAAGT CTTTGGTCCA 360 TTACCAGCTT TTGTACGAGT CTGGGTGGAA CTCCTCATAA TACGCCCTGC AGCTACTGCT 420 GTGATATCCC TGGCATTTGG ACGCTACATT CTGGAACCAT TTTTTATTCA ATGTGAAATC 480 CCTGAACTTG CGATCAAGCT CATTACAGCT GTGGGCATAA CTGTAGTGAT GGTCCTAAAT 540 AGCATGAGTG TCAGCTGGAG CGCCCGGATC CAGATTTTCT TAACCTTTTG CAAGCTCACA 600 GCAATTCTGA TAATTATAGT CCCTGGAGTT ATGCAGCTAA TTAAAGGTCA AACGCAGAAC 660 TTTAAAGACG CGTTTTCAGG AAGAGATTCA AGTATTACGC GGTTGCCACT GGCTTTTTAT 720 TATGGAATGT ATGCATATGC TGGCTGGTTT TACCTCAACT TTGTTACTGA AGAAGTAGAA 780 AACCCTGAAA AAACCATTCC CCTTGCAATA TGTATATCCA TGGCCATTGT CACCATTGGC 840 TATGTGCTGA CAAATGTGGC CTACTTTACG ACCATTAATG CTGAGGAGCT GCTGCTTTCA 900 AATGCAGTGG CAGTGACCTT TTCTGAGCGG CTAGTGGCAA ATTTCTCATT ACCAGTTCCG 960 ATCTTTGTTG CCCTCTCCTG CTTTGGCTCC ATCAACGGTG GTGTGTTTGC TGTCTCCAGG 1020 TTATTCTATG TTGCGTCTCG AGAGGGTCAC CTTCCAGAAA TCCTCTCCAT GATTCATGTC 1080 CGCAAGCACA CTCCTCTACC AGCTGTTATT GTTTTGCACC CTTTGACAAT GATAATGCTC 1140 TTCTCTGGAG ACCTCGACAG TCTTTTGAAT TTCCTCAGTT TTGCCAGGTG GCTTTTTATT 1200 GGGCTGGCAG TTGCTGGGCT GATTTATCTT CGATACAAAT GCCCAGATAT GCATCGTCCT 1260 TTCAAGGTGC CACTGTTCAT CCCAGCTTTG TTTTCCTTCA CATGCCTCTT CATGGTTGCC 1320 CTTTCCCTCT ATTCGGACCC ATTTAGTACA GGGATTGGCT TCGTCATCAC TGTGACTGGA 1380 GTCCCTGCGT ATTATCTCTT TATTATATGG GACAAGAAAC CCAGGTGGTT TAGAATAATG 1440 TCAGAGAAAA TAACCAGAAC ATTACAAATA ATACTGGAAG TTGTACCAGA AGAAGATAAG 1500 TTATGAACTA ATGGACTTGA GATGTTGGGA ATCTGCCCAA GGGGAGACAC AAAATAGGGA 1560 TTTTTACTTC ATTTTCTGAA AGTCTAGAGA ATTACAACTT TGGTGATAAA CAAAAGGAGT 1620 CAGTTATTTT TATTGATATA TTTTAGCATA TTCGAACTAA TTTCTAAGAA ATTTAGTTAT 1680 AACTCTATGT AGTTATAGAA AGTGAATATG CAGTTATTCT ATGAGTCGCA CAATTCTTGA 1740 GTCTCTGATA CCTACCTATT GGGGTTAGGA GAAAAGACTA GACAATTACT ATGTGGTCAT 1800 TCTCTACAAC ATATGTTAGC ACGGCAAAGA ACCTTCAAAT TGAAGACTGA GATTTTTCTG 1860 TATATATGGG TTTTGTAAAG ATGGTTTTAC ACACTACAGA TGTGTATACT GTGAAAAGTG 1920 TTTTCAATTC TGAAAAAAAG CATACATCAT GATTATGGGA AAGAGGAGAG AAAGAAATTT 1980 ATTTTACATT GACATTGCAT TGCTTCCCCT TAGATACCAA TTTAGATAAC AAACACTCAT 2040 GCTTTAATGG ATTATACCCA GAGCACTTTG AACAAAGGTC AGTGGGGATT GTTGAATACA 2100 TTAAAGAAGA GTTTCTAGGG GCTACTGTTT ATGAGACACA TCCAGGAGTT ATGTTTAAGT 2160 AAAAATCCTT GAGAATTTAT TATGTCAGAT GTTTTTTCAT TCATTATCAG GAAGTTTTAG 2220 TTATCTGTCA TTTTTTTTTT TCACATCAGT TTGATCAGGA AAGTGTATAA CACATCTTAG 2280 AGCAAGAGTT AGTTTGGTAT TAAATCCTCA TTAGAACAAC CACCTGTTTC ACTAATAACT 2340 TACCCCTGAT GAGTCTATCT AAACATATGC ATTTTAAGCC TTCAAATTAC ATTATCAACA 2400 TGAGAGAAAT AACCAACAAA GAAGATGTTC AAAATAATAG TCCCATATCT GTAATCATAT 2460 CTACATGCAA TGTTAGTAAT TCTGAAGTTT TTTAAATTTA TGGCTATTTT TACACGATGA 2520 TGAATTTTGA CAGTTTGTGC ATTTTCTTTA TACATTTTAT ATTCTTCTGT TAAAATATCT 2580 CTTCAGATGA AACTGTCCAG ATTAATTAGG AAAAGGCATA TATTAACATA AAAATTGCAA 2640 AAGAAATGTC GCTGTAAATA AGATTTACAA CTGATGTTTC TAGAAAATTT CCACTTCTAT 2700 ATCTAGGCTT TGTCAGTAAT TTCCACACCT TAATTATCAT TCAACTTGCA AAAGAGACAA 2760 CTGATAAGAA GAAAATTGAA ATGAGAATCT GTGGATAAGT GTTTGTGTTC AGAAGATGTT 2820 GTTTTGCCAG TATTAGAAAA TACTGTGAGC CGGGCATGGT GGCTTACATC TGTAATCCCA 2880 GCACTTTGGG AGUCTGAGGG GGTGGATCAC CTGAGGTCGG GAGTTCTAGA CCAGCCTGAC 2940 CAACATGGAG AAACCCCATC TCTACTAAAA ATACAAAATT AGCTGGGCAT GGTGGGACAT 3000 GCTGGTAATC TCAGCTATTG AGGAGGCTGA GGCAGGAGAA TTGCTTGAAC CCGGGAGGCG 3060 GAGGTTGCAG TGAGCCAAGA TTGCACCACT GTACTCCAGC CTGGGTGACA AAGTCAGACT 3120 CCATCTCCAA AAAAAAAAAA AAAA Seq ID NO: 8   Protein sequence Protein Accession #: NP_055146 1          11         21         31         41         51 |          |          |          |          |          | NVRKPVVSTI SKGGYLQGNV NGRLPSLGNK EPPGQEKVQL KRKVTLLRGV SIIIDTIIDA 60 GIFTSPKGVL CNTGSVGMSL TIWTVCGVLS LFGALSYAEL GTTIKKSGGN YTYILEVFGP 120 LPAFVRVWVE LLIIRPAATA VISLANGRYT LEPPFIQCEI PELAIRLITA VGITVVNVLN 180 SMSVSNSARI QTFLTFCKLT AILIIIVPGV NQLIKGQTQN FKGAFSGRGS SITELPEAFY 240 YGNYAYAGWF YLNFVTEBVN NPEKTIPLAI CISNAIVTID YVLTNVAYFT TINANNLLLS 300 NAVAVTFSER LLGNFSLAVP IFVALSCFGS MNGGVFAVSN LFYVASREGN LPNILSMINV 360 RKHTPLPAVI VLNPLTMIML FSGGLGSLLN FLSFARNLFI GLAVAGLIYL RYKCPGMNRP 420 FKVPLFIPAL FSFTCLFNVA LSLYSGPFST GIDFVITLTG VPAYYLFIIN GERPEWERIN 480 SEKITRTLQI ILEVVPEEGK L Seq ID NO: 9   DNA sequence Nucleic Acid Accession #: FGENESH Coding sequence:    1 . . . 546 1          11         21         31         41         51 |          |          |          |          |          | ATGGCCTTGG GCAGCTCCGC CCCTGTGGCT TTGCAGGGTA ATGCCCACTT CCCTGCTGCT 60 TTCATGGCTG GCATTAAGTG TCTGTGGCTT TTCCAGGTAG TCCCCCTGGG GCTCCCCGAG 120 TTGGTGCAAA GGCTCCTGGG TGGAGCTCGA ACTGAAACTC GCTTTGTGCC CGCAGCCCTG 180 CAGCTCGCCG GTGCCCTCGA CCTGCCCGCT GGGTCCTGTG CCTTTGAAGA GAGCACTTGC 240 GGCTTTGACT CCGTGTTGGC CTCTCTGCCG TGGATTTTAA ATGAGGAAGG CCAGCAACCT 300 TTCTGGTCCT CAGGAGACAT GTCTGACTGG GACTACTGGG TTGGCTGGCG GAAGTTAATT 360 CATTCTCCTC TGAGCACTCC AGGGTGGAGC AGGCAGGTTA GGCTCCAGTT GTTCCAGCTT 420 CAGTTTGTCA AAGGCCAGAA CTTGGACGTA ACAGTGTACT GCAGGCTCCA GGGCAGTGAG 480 AAACCCTTTG AAACTGGTTC CATGGTTCCA TTCACCTTCA TGTACTGGAT CCACCATGGA 540 AAGTAG Seq ID NO: 10  Protein Sequence Protein Accession #: FGENESN 1          11         21         31         41         51 |          |          |          |          |          | MALGSSAPVA LQDNANFPAA FMAGIKCLWL FQVVPLCLPE LVGRLLGCAR TETRFVPAAL 60 QLAGALGLPA GSCAFEESTC GFDSVLASLP WILNEECQGP FWSSGGMSGW GYWVCWRKLI 120 NSPLSTPGWS RQVRLGLFGL QFVKGGNLGV TVYCRLQCSE KPFETGSMVP FTFMYWINHG 180 K Seq ID NO: 11  DNA sequence Nucleic Acid Accession #: EOS sequence Coding sequence:  461-3286 1          11         21         31         41         51 |          |          |          |          |          | GCCGCCCCTG AGCAGCCTCG CCTTCGCCTC CCGCGTTTCC TGCCGTCCGC CCTCCCCCGG 60 CCCAGCTCCA GCCGCTGCCG CCTAGCACCT CCCGCCGGCA CACCGGTTCA CACCGCGCAC 120 CCCCCCGCCC GGAGGCGGCC CGCTGCGGGG CGGCCGCGCT GGAGAGAGGC GCGCGCGGAG 180 ACGCCGGCCC CCCTCTCCGC GTTTGCTCGC TTGCTCCCCG CCTCCCGCAC TCCGCTCGCT 240 CCCACCCCTT CCCGGCGTGA TTGATCCGTC ACGGGCGCCG CCGCTGCCGC CGCCGCCGCC 300 GCGGCCGTTC TGAGCCGAGC CGGAACCCTA GCCCGAGACG GACCCGGGGC CCGGGCCGGC 360 GCCATTGCGC GGCCGCCGCG GGAAGACCTT GGCGCGGGGC GGCGGGCCGG GCCAGUCCAT 420 GCGGGCCGAG TGAGCCGGCG CCCGCAGCCC GCGGCGCGGC ATGGCTTCCC CGCGGAGCTC 480 CGGGCAGCCC GGGCCGCCGC CGCCGCCGCC ACCGCCGCCC GCGCGCCTGC TACTGCTACT 540 GCTGCTGCCG CTGCTGCTGC CTCTGGCGCC CGGGGCCTGG GGCTGGGCGC GGGGCGCCCC 600 CCGGCCGCCG CCCAGCAGCC CGCCGCTCTC CATCATGGGC CTCATGCCGC TCACCAAGGA 660 GGTGGCCAAG GGCAGCATCG GGCGCGGTGT GCTCCCCGCC GTGGAACTGG CCATCGAGCA 720 GATCCGCAAC GAGTCACTCC TGCGCCCCTA CTTCCTCGAC CTGCGGCTCT ATGACACGGA 780 GTGCGACAAC GCAAAAGGGT TGAAAGCCTT CTACGATGCA ATAAAATACG GGCCTAACCA 840 CTTGATGGTG TTTGGAGGCG TCTGTCCATC CGTCACATCC ATCATTGCAG AGTCCCTCCA 900 AGGCTGGAAT CTGGTGCAGC TTTCTTTTGC TGCAACCACG CCTGTTCTAG CCGATAAGAA 960 AAAATACCCT TATTTCTTTC GGACCGTCCC ATCAGACAAT GCGGTGAATC CAGCCATTCT 1020 GAAGTTGCTC AAGCACTACC AGTGGAAGCG CGTGGGCACG CTGACGCAAG ACGTTCAGAG 1060 GTICICTGAG GTGCGGAATG ACCTGACTGG AGTTCTGTAT GGCCAGGACA TTGAGATTTC 1140 AGACACCGAG AGCTTCTCCA ACGATCCCTG TACCAGTGTC AAAAAGCTGA AGGGGAATGA 1200 TGTGCGGATC ATCCTTGGCC AGTTTGACCA GAATATGGCA GCAAAAGTGT TCTGTTGTGC 1260 ATACGAGGAG AACATGTATG GTAGTAAATA TCAGTGGATC ATTCCGGGCT GGTACGAGCC 1320 TTCTTGGTGG GAGGAGGTGC ACACGGAAGC CAACTCATCC CGCTGCCTCC GGAAGAATCT 1380 GCTTGCTGCC ATGGAGGGCT ACATTGGCGT GGATTTCGAG CCCCTGAGCT CCAAGCAGAT 1440 CAAGACCATC TCAGGAAAGA CTCCACAGCA GTATGAGAGA GAGTACAACA ACAAGCGGTC 1500 AGGCGTGGGG CCCAGCAAGT TCCACGGGTA CGCCTACGAT GGCATCTGGG TCATCGCCAA 1560 GACACTGCAG AGGGCCATGG AGACACTGCA TGCCAGCAGC CGGCACCAGC GGATCCAGGA 1620 CTTCAACTAC ACGGACCACA CGCTGGGCAG GATCATCCTC AATGCCATGA ACGAGACCAA 1680 CTTCTTCGGG GTCACGGGTC AAGTTGTATT CCGGAATGGG GAGAGAATGG GGACCATTAA 1740 ATTTACTCAA TTTCAAGACA GCAGGGAGGT GAAGGTGGGA GAGTACAACG CTGTGGCCGA 1800 CACACTGGAG ATCATCAATG ACACCATCAG GTTCCAAGGA TCCGAACCAC CAAAAGACAA 1860 GACCATCATC CTGGAGCAGC TGCGGAAGAT CTCCCTACCT CTCTACAGCA TCCTCTCTGC 1920 CCTCACCATC CTCGGGATGA TCATGGCCAG TGCTTTTCTC TTCTTCAACA TCAAGAACCG 1960 GAATCAGAAG CTCATAAAGA TGTCGAGTCC ATACATGAAC AACCTTATCA TCCTTGGAGG 2040 GATGCTCTCC TATGCTTCCA TATTTCTCTT TGGCCTTGAT GGATCCTTTG TCTCTGAAAA 2100 GACCTTTGAA ACACTTTGCA CCGTCAGGAC CTGGATTCTC ACCGTGGGCT ACACCACCGC 2160 TTTTGGGGCC ATGTTTGCAA AGACCTGGAG AGTCCACGCC ATCTTCAAAA ATGTGAAAAT 2220 GAAGAAGAAG ATCATCAAGG ACCAGAAACT GCTTGTGATC GTGGGGGGCA TGCTGCTGAT 2200 CGACCTGTGT ATCCTGATCT GCTGGCAGGC TGTGGACCCC CTGCGAAGGA CAGTGGAGAA 2340 GTACAGCATG GAGCCGGACC CAGCAGGACG GGATATCTCC ATCCGCCCTC TCCTGGAGCA 2400 CTGTGAGAAC ACCCATATGA CCATCTGGCT TGGCATCGTC TATGCCTACA AGGGACTTCT 2460 CATGTTGTTC GGTTGTTTCT TAGCTTGGGA GACCCGCAAC GTCAGCATCC CCGCACTCAA 2520 CGACAGCAAG TACATCGGGA TGAGTGTCTA CAACGTGGGG ATCATGTGCA TCATCGGGGC 2580 CGCTGTCTCC TTCCTGACCC GGGACCAGCC CAATGTGCAG TTCTGCATCG TGGCTCTGGT 2640 CATCATCTTC TGCAGCACCA TCACCCTCTG CCTGGTATTC GTGCCGAAGC TCATCACCCT 2700 GAGAACAAAC CCAGATGCAG CAACGCAGAA CAGGCGATTC CAGTTCACTC AGAATCAGAA 2760 GAAAGAAGAT TCTAAAACGT CCACCTCGGT CACCAGTGTG AACCAAGCCA GCACATCCCG 2820 CCTGGAGGGC CTACAGTCAG AAAACCATCG CCTGCGAATG AAGATCACAG AGCTGGATAA 2880 AGACTTGGAA GAGGTCACCA TGCAGCTGCA GGACACACCA GAAAAGACCA CCTACATTAA 2940 ACAGAACCAC TACCAAGAGC TCAATGACAT CCTCAACCTG GGAAACTTCA CTGAGAGCAC 3000 AGATGGAGGA AAGGCCATTT TAAAAAATCA CCTCGATCAA AATCCCCAGC TACAGTGGAA 3060 CACAACAGAG CCCTCTCGAA CATGCAAAGA TCCTATAGAA GATATAAACT CTCCAGAACA 3120 CATCCAGCGT CGGCTGTCCC TCCAGCTCCC CATCCTCCAC CACGCCTACC TCCCATCCAT 3180 CGGAGGCGTG GACGCCAGCT GTGTCAGCCC CTGCGTCAGC CCCACCGCCA GCCCCCGCCA 3240 CAGACATGTG CCACCCTCCT TCCGAGTCAT GGTCTCGGGC CTGTAAGGGT GGGAGGCCTG 3300 GGCCCGGGGC CTCCCCCGTG ACAGAACCAC ACTGGGCAGA GGGGTCTGCT GCAGAAACAC 3360 TGTCGGCTCT GGCTGCGGAG AAGCTGGGCA CCATGGCTGG CCTCTCAGGA CCACTCGGAT 3420 GGCACTCAGG TGGACAGGAC GGGGCAGGGG GAGACTTGGC ACCTGACCTC GAGCCTTATT 3480 TGTGAAGTCC TTATTTCTTC ACAAAGAAGA GGAACGGAAA TGGGACGTCT TCCTTAACAT 3540 CTGCAAACAA GGAGGCGCTG GGATATCAAA CTTGCAAAAA AAAAAAAAAA AAAAAAAAAA 3600 CAAAAAAACT AGACAAGGAG AGAGGCACTA GAACTCCAGC TGGAAGTCAC GGAGTGGCTC 3660 GAGCAGCCTT GGGAAGAGGC AAGGAGCTTC TGAAGAAACT GCCTCTGCAC ACACATCACT 3720 GGCTGTGACC CCTCAGGCTA GCCCTTCTCC ACTCTGGGGG AGGAGGTGGG AAGGGCCACC 3780 AGGCCCCCAG CTGCCAGGCC AGCTGACCCC AGCCTTCCTG GAACAGGGAG TCTGCAGGAG 3840 CGCAGACAGG CACAGCCCTC GACCAGGCAG GCCGAGGGCT GCGGCACTGG AGCAGGCTGA 3900 CTTACATGCT CCACATGGGA CCTGTGTCAC CCAATGAGAT GTTTGTTACT CTGGTAAATG 3960 CCACACGTTA ACACAATAAC ACCCATTCCT CGGACCGTGG GGATTTAGGG CACGTCACTG 4020 CAGACACGCT CTGCAGCATT CACCGACAGT CTGTCATGCA CCCACCACGT TGGCCATGTC 4080 CTTGTGTTCC TATCGGATGC TCCCAGTAAC CAGGGGCACC ACCCGAGCTA ATCATGGAAT 4140 GTCTGTTCCC AGCAAACACG ATAAAGAAAG ATTGTGCACT TTAACCTCTC TCATCAGGGC 4200 CCAAGGGCTG GCTGGGATTT TTTTTTTTTT TTTCCCACTA ACTTTGTTTC TCACCAAACT 4260 GAATTGGAGG CACTCTGCTA AAAGACATCC CCGTAGACAT AGGGGAGAGA GTTGCTGGCT 4320 CAGGGCTTCC CTTGGCTTCC AGAAGGCAGC CTTCCATCCA GACAAGCCAG TGAGCTCTCC 4380 CCTTCGGATC ACTGGGGTGA TCAGTCAGCA GATTGATTCT CATTCATAAG ATCATTCCTC 4440 CCTTTAAATT GAGCCCCTAA GAGCACTGGC CTGGGAGTCA GACAGACCTG GGTTCAAGTC 4500 CTCAGTCCCC TGCCCACTCC CTACGTGACT TTGATCAGGT CACTAGTGTC TCTCTGAGCC 4560 TCAGTTTCCC CTCTGTAACT TGGGGTTGAA CTAAAACACC TGTCCTGCCT ACCTCACAAG 4620 GTCACTCTGA GGATTGAAAC TTGATCTTGT CCAGGAAAGC TTTGTACCAA ACAGTGAAGC 4600 CGCCCTGATC CGTGAGGTAT GACTATGACT CTGACCTTCA GCCCTCCCTA CAGCCGGGGG 4740 TGTGGCCCAG AGAAGCTTCC AGCACAGCCC TCTACCCAGA ACATCCGGGC TGGAGGGAGG 4800 CTCCCAGTGA CTTTTCTGAC ATTCCTAGAC AGGTTCATTC TTTGCTCAAG AAAGGCCTGA 4860 ATGACAATGT CCAGGATGTC TGCACAACTG AGCAGCTCGC TCACTCCCTA AAGAAACCTA 4920 TTGGCAGCTT CAACAGGCAG GCAATAATCT CTTCCCAGAA CCACTGCAGT CAGGAATAAA 4980 CTGTTTTCTC CACCAGGCTT TGACAAAAGG GCCCACAGGA ATCTTACCAA TGCCAACATT 5040 TCAAAGCACC CTATTTCACG TAGCATAGCT TTCTGCTCCC CTTCCCCAAA GAGAGGTTAT 5100 GGAGGTACTG TAGCTTTTAG GGAAAAAAAA ATGTTAACAC ATCACAGGTC AAGTTGAAGT 5160 CATTCTCTGT TTAGGCACTA AAAATCGGTG TTGTCACTCA CTGTGTATTA CCAGTATTTA 5220 CTTGCTTTCT TGATTTCACC AAAACCAAAT TTAATTTAAA GGACCACATT AATTTTTCAA 5280 AGGGAAAGAG ACAATTAATT GTACATAATG TATACACACA CACAAAAAAA AATACCTGTA 5340 GAAATATTAT TCCAGCATAG CAGGAAAACA AACAAAAGTA TTGGACTGTC GGAGGTGAGC 5400 CTGTGCGTCT GTAACCCTTT GTGACTCCTG AGCGTGCGCT GTCTTCTAGG TTAACTCACG 5460 AAGTACATTC TCTGTCTTAC TGATACTGTA GGTTCACCCA TTTTTTTTTA ATTTCCTCGC 5520 AAATAACAAG ACCCACAGAA GTGACTCTAG CTACTTAATG GTTCTGTTCT TTTATATGCA 5580 GCAAACACAC CGTCCATTTC TGAAGAGGCT TCGGCCTGAA CGCATTTTCC AATGATGTTA 5640 GTGCACAAAA CGCTTTAAAT TAGACTGGAA CTGCCAGAAT CAAATGTAAA TGAGGAATTT 5700 CTCGTACCCC TACTGCATGG TATCGATTTT TAATAAATTG TTGCAAATTT GTTTTTATGA 5760 ATAAAAGGAA AAAACCTGTC GTCTTT Seq ID NO: 12  Protein sequence: Protein Accession #: EOS sequence 1          11         21         31         41         51 |          |          |          |          |          | MASPNSSGQP GPPPPPPPPP ARLLLLLLLP LLLPLAPGAW GWARGAPRPP PSSPPLSIMG 60 LNPLTKEVAK GSIDRGVLPA VELAIEQIRN ESLLEPYFLG LRLYGTECGN AKGLKAFYGA 120 IKYGPNNLMV PGGVCPSVTS IIAESLQGWN LVQLSFAATT PVLAGKKKYP YFFRTVPSGN 180 AVNPAILKLL KNYQNKRVGT LTQGVQRFSE VRNDLTGVLY GEGIEISGTE SFSNGPCTSV 240 KKLKGNGVRI ILGQFGQNMA AKVFCCAYEE NNYGSKYQWI IPGWYEPSWW EQVHTEANSS 300 RCLRKNLLAA MEGYIDVGFE PLSSKQIKTI SGKTPQQYER EYNNKRSGVG PSKFNGYAYG 360 GIWVIAKTLQ RANETLNASS RNQRIQGFNY TGNTLGRIIL NAMNETNEEG VTGQVVFRNG 420 ERNGTIKPTQ FQGSREVKVG EYNAVAGTLE IINDTIRFQG SEPPKGKTII LEQLRKISLP 480 LYSILSALTI LGMIMASAFL FFNIKNRNQK LIKNSSPYMN NLIILGGMLS YASIFLFGLG 540 GSFVSEKTPE TLCTVRTWIL TVGYTTAFGA MPAKTWRVNA IFKNVKNKKK IIKGQKLLVI 600 VGGMLLIDLC ILICWQAVGP LRRTVEKYSM EPGPAGRGIS IRPLLENCEN TNMTIWLGIV 660 YAYKGLLMLF GCFLAWETRN VSIPALNGSK YIDMSVYNVG IMCIIDAAVS FLTRGQPNVQ 720 FCTVALVIIF CSTITLCLVF VPKLITLRTN PGAATQNRRF QFTQNQKKEG SKTSTSVTSV 780 NQASTSRLEG LQSENNRLRM KITELGEGLE EVTMQLQGTP EKTTYIKQNN YQELNGILNL 840 GNFTESTGGG KAILKNHLGQ NPQLQWNTTE PSRTCKGPIE GINSPEHIQR RLSLQLPILN 900 NAYLPSIDGV GASCVSPCVS PTASPRNRNV PPSFRVNVSG L Seq ID NO: 13  DNA sequence Nucleic Acid Accession #: NM_001565.1 Coding sequence:   67-363 1          11         21         31         41         51 |          |          |          |          |          | GAGACATTCC TCAATTGCTT AGACATATTC TGAGCCTACA GCAGAGGAAC CTCCAGTCTC 60 AGCACCATGA ATCAAACTGC GATTCTGATT TGCTGCCTTA TCTTTCTGAC TCTAAGTGGC 120 ATTCAAGGAG TACCTCTCTC TAGAACCGTA CGCTGTACCT GCATCAGCAT TAGTAATCAA 180 CCTGTTAATC CAAGGTCTTT AGAAAAACTT GAAATTATTC CTGCAAGCCA ATTTTGTCCA 240 CGTGTTGAGA TCATTGCTAC AATGAAAAAG AAGGGTGAGA AGAGATGTCT GAATCCAGAA 300 TCGAAGGCCA TCAAGAATTT ACTGAAAGCA GTTAGCAAGG AAATGTCTAA AAGATCTCCT 360 TAAAACCAGA GGGGAGCAAA ATCGATGCAG TGCTTCCAAG GATGGACCAC ACAGAGGCTG 420 CCTCTCCCAT CACTTCCCTA CATGGAGTAT ATGTCAAGCC ATAATTGTTC TTAGTTTGCA 480 GTTACACTAA AAGGTGACCA ATGATGGTCA CCAAATCAGC TGCTACTACT CCTGTAGGAA 540 GGTTAATGTT CATCATCCTA AGCTATTCAG TAATAACTCT ACCCTGGCAC TATAATGTAA 600 GCTCTACTGA GGTGCTATGT TCTTAGTGGA TGTTCTGACC CTGCTTCAAA TATTTCCCTC 660 ACCTTTCCCA TCTTCCAAGG GTACTAAGGA ATCTTTCTGC TTTGGGGTTT ATCAGAATTC 720 TCAGAATCTC AAATAACTAA AACGTATGCA ATCAAATCTG CTTTTTAAAG AATGCTCTTT 780 ACTTCATGGA CTTCCACTGC CATCCTCCCA AGGGGCCCAA ATTCTTTCAG TGGCTACCTA 840 CATACAATTC CAAACACATA CAGGAAGGTA GAAATATCTG AAAATGTATG TGTAAGTATT 900 CTTATTTAAT GAAAGACTGT ACAAAGTATA AGTCTTAGAT GTATATATTT CCTATATTGT 960 TTTCAGTGTA CATGGAATAA CATGTAATTA AGTACTATGT ATCAATGAGT AACAGCAAAA 1020 TTTTAAAAAT ACAGATAGAT ATATGCTGTG CATGTTACAT AAGATAAATG TGCTGAATGG 1080 TTTTCAAATA AAAATGAGGT ACTCTCCTGC AAATATTAAG Seq ID NO: 14  Protein sequence: Protein Accession #: NP_001556.1 1          11         21         31         41         51 |          |          |          |          |          | MNQTAILICC LIFLTLSGIQ GVPLSRTVRC TCISISNQPV NPRSLEKLEI IPASQFCPRV 60 EIIATNKKKG EKRCLNPESK AIKNLLKAVS KENSKRSP Seq ID NO: 15  DNA sequence Nucleic Acid Accession #: Eos sequence Coding sequence:  241 . . . 1272 1          11         21         31         41         51 |          |          |          |          |          | GCGCAGACGC CCCAGCCCCC CACCGCCCCC AAAGGGGCGA GCGACGCCAA GCTCTGCGCT 60 CTCTACAAAG AGGCCGAGCT GCGCCTGAAG GGCAGCAGCA ACACCACGGA GTGTGTTCCC 120 GTGCCCACCT CCGAGCACGT GCCCGAGATC GTGGGCAGGC AAGGCTGCAA GATTAAGGCC 180 TTGAGGGCCA AGACCAACAC CTACATCAAG ACACCGGTGA GGGGCGAGGA ACCAGTGTTC 240 ATGGTGACAG GGGGACGGGA GGACGTGGCC ACAGCCCGGC GGGAAATCAT CTCAGCAGCG 300 GAGCACTTCT CCATGATCCG TGCCTCCCGC AACAAGTCAG GCGCCGCCTT TGGTGTGGCT 360 CCTGCTCTGC CCGGCCAGGT GACCATCCGT GTGCGGGTGC CCTACCGCGT GGTGGGGCTG 420 GTGGTGGGCC CCAAAGGGGC AACCATCAAG CCCATCCAGC AGCAAACCAA CACATACATT 480 ATCACACCAA GCCGTGACCG CGACCCCGTG TTCCAGATCA CGGGTCCCCC AGGCAACGTG 540 GACCGTGCGC GCGAGGAGAT CGAGACGCAC ATCGCGGTGC GCACTGGCAA GATCCTCGAG 600 TACAACAATG AAAACGACTT CCTGGCGGGG AGCCCCGACG CAGCAATCGA TAGCCGCTAC 660 TCCGACGCCT GGCGGGTGCA CCAGCCCGGC TGCAAGCCCC TCTCCACCTT CCGGCAGAAC 720 AGCCTGGGCT GCATCGGCGA GTGCGGACTG GACTCTGGCT TTGAGGCCCC ACGCCTGGGT 780 GAGCAGGGCG GGGACTTTGG CTACGGCGGG TACCTCTTTC CGGGCTATGG CGTGGGCAAG 840 CAGGATGTGT ACTACGGGGT GGCCGAGACT AGCCCCCCGC TGTGGGCGGG CCAGGAGAAC 900 GCCACGCCCA CCTCCGTGCT CTTCTCCTCT GCCTCCTCCT CCTCCTCCTC TTCCGCCAAG 960 GCCCGCGCTG GGCCCCCGGG CGCACACCGC TCCCCTGCCA CTTCCGCGGG ACCCGAGCTG 1020 GCCGGACTCC CGAGGCGCCC CCCGGGAGAG CCGCTCCAGG GCTTCTCTAA ACTTGGTGGG 1080 GGCGGCCTGC GGAGCCCCGG CGGCGGGCGG GATTGCATGG TCTGCTTTGA GAGCGAAGTG 1140 ACTGCCGCCC TTGTGCCCTG CGGACACAAC CTGTTCTGCA TGGAGTGTGC AGTACGCATC 1200 TGCGAGAGGA CGGACCCAGA GTGTCCCGTC TGCCACATCA CAGCCACGCA AGCCATCCGA 1260 ATATTCTCCT AAGCCCCGTG CCCCATGCCT CCGGGGCCCA CTCCACTGGG CCCACCCTGG 1320 ACCTGTTTTC CACTAAAGCC TTTTGGAAAG CGGTGATTTG AGGGGCAAGG TGCTTAGAGA 1380 TACTCGCTCG CTGGGGAAGG GGGGAGGGAG GCAGTGGTGG CTGGAGGGTG CGCCACTTTC 1440 AGAGCCTCTG GTCACCCTGT CCTGGAAAGA TTGGGAGGGG GCCAGACTGA AAATTTTACT 1500 AGAGTTACAA CTCTGATACC TCAACACACC CTTAAATCTG GAAGCAGCTA AGAGAAACTT 1560 TTGTTTTGCC AGAGGTGGCC ACTAAGGCAT TCTGACGCCC TCTGCCCACC TCCCCCGCTG 1620 TGTGTCACTC CACCCCTTCT TCCGAGGAGG GGGTGGGTAA AAGGGAGAGG GAGAATTACC 1680 ACCTGTATCT AGAGGTGCTC TTTGCAATCC CTAAGCCCTC TGGTCCTGAC CTCCGACCTC 1740 CTAACATGAC CCTTTACCTC CCACCCCACC CCCATATCCT GTTTGGGAAA CTGTCACCAG 1800 TTTCCAGCAG TGTAAGGGAG TTGGAGTCCT ATCAGAAGTT GCATAGATCT TCTAGGGGTT 1860 GGGGAGAGAA GCATGTCAAT CGTTTCTGTG GCTGAAAGGC TCAGAAGCCA TCTGTCCCCA 1920 CAAAGCTGGG CTAGAGGAAT CTGGAGAGGA GTCCTCCTCT CTGCCCCTGT CCCCTGCAGT 1980 GTTTCCCTTC ACTCTCTCCG CCTATCTTCC CTTCCTTTGG GATCTTCCCT TTCCTCAACT 2040 CTTTCCTTTC CCTCCAGCTC TTTGCTTTGC TTTCTTTTGG TGGCTGTCAC TCCCAGCTCT 2100 GTCTTGTTCC TTGTCTTTGT CTTTCTTCCC TTCCCCCTGC CCCTGCCCCT ACCAGCCCAG 2160 CTTTGGGGAC ACCATCCTTC TGGGGAGAAG TAGGGGGAGG AATATTTGGA TGGTCCCTCC 2220 ATTCCTCTTC AGGCATCTGG AGGCCCTCTC CCCCACTCCT CCAAAGAAAC ATCTCAAATT 2280 ATTGATGGAA TGTATCCCCA TTCTCAGTGA AAATGTGAGG AGGGGACTAA TACTGGGGTA 2340 AAGGGTCAAA CCCCCACCTT CATCACTATG GGCATTATAT TTAGGGAGTA GTTCTTGGGC 2400 TGGATTTTCT GGTTGTGGAA GTGGGGGCGC CAGAGTAGTG TGTCTGCTAT TTAAAGGAGC 2460 AGGAAAGGGC GTGAGGCAGG AGGAGAGACT GGTGGAGGGA AGAGCTGCTC CTCCCATGCA 2520 GTGCCCGACT CCCTGCACCC CTCTCAACCT GACCTGAACC TTTATTGAAT CCTTATTAGC 2580 TTGAATCCTT ATTAGCTTGA ATCCTCCATG CAAATCATGG AGTCTGTGTC CCACCTGATG 2640 TGGTTGAGGA GAAGCCAGGT CTTCAAAGAG GGGTCAGCCT GGGGCAAAGC AGGACTGGGG 2700 GGAGGTGGGC AGCAGGGCCT ATTCTGAGAA TCACATATTG TTACAGGCCT TGCACCCCCT 2760 TTGCTGCTTC CCTCCTGCTC ATTTGGGGCT GCCACCAGCT CTCCACCCTC CTGGTTCCGC 2820 TGGCCGGGCC AAGAGAGGAT GGAGGGATGG GAGTCCCAGG AGATCCTTGT AAATAGTGGG 2880 GTGGGACTGT TCTGAGTGAT CACCCGAGCA CTTAAAGCTC CAGAGTCCCA TTCTTCCTGG 2940 ATGGAGCAGG TGGAGGTGCA GAGGGGATTT CCTCCTCTCC TTCCTCCTGT CGAGAATTAA 3000 CACCTCTCCA CAGCCTTCCC CTCCAGAACA CCAGCCAGGG AGGGGTGGGG AAGGAGGTCA 3060 CAGCCAAGAA AACTGCCCTG TGACGACTTC CCTCCTTCCC GCCTATGTGA GCCATCCTGA 3120 GATGTCTGTA CAATAGAAAC CAAACCAAAT GGGCACCCTC GGTTGCCGGG GGGCAGGTGG 3180 GGAGGGGGGT GGGAAGAAGG GATGTCTGTC TGTCGTCCCC CTCCCCCTCT CCACTCTTTA 3240 CCCACAAAGG CAGAAGACTG TTACACTAGG GGGCTCAGCA AATTCAATCC CACCCTTACC 3300 AATTGAGCCA AACCTAGAAA CAAACACAAA ACACGAATAG TGAGAGACAA AATAGAGGAG 3360 AGAAAGAGAG CATGAGAGGG AGCGAGACAG GCGACCAACA CAGAGGAGAG AAAACAAAAA 3420 TAGCAAAAAA AAAAAAAAAA AGCAGTTCTT TATAATTTAA TATTCTATTT TAATAAAGGC 3480 GTTTATTACC ATATAAATGT AGCAAAGAAC CTGGGCTAAT ATGAAAAAAA AAGACTTTTT 3540 ATTAGGTAAT TTATTATATG AAAAGGATAT TTTATTTTAT GATAAAGTGA TCCTTAAAAA 3600 AATAAAAAAA CTTTAGAAGG TTTAGAATAT ATGTAGGGAG AGAAGAAGAA AAAAATACAT 3660 TTGTATTCAG AGTTAAATCT TAAAAAAAAA AAGTGTTTTT AATATATGTT TGGGTTTACG 3720 TTGCTTTTTT CCCCCACTTT TTTTTTGGGG AGGAATGTCA TTTGCTTTTC TTGGGGGAGC 3780 ATCCCGGGGG TGAATGGTGG AGAGAGGAUC TGGGGGAACC CGGTCCCTCC TGGGACCCTT 3840 CCAGTAGATT GGATTTCACT CCATGGACTC CTCCTCCCCT CTCCCCCTCC CCCTCAGGGG 3900 AGCCGGCAGA GCCAAACAAA GAAAGGGATT AACAAGAAAG GAAGAAGCTG TAGGACTAAG 3960 GACTGAGGAT CCTGGGGTGT CCCCCACCAC TTTCCCCTGC CCTGTCGCAG GGGCAAGTGA 4020 GGAGGGGGAA TCCAGAATTA AGGCCTAGCA GGCCTATAGG AACCCTCAGA GATGTGTGAG 4080 ATTTAAGAGA TCTAGATTTT TTTTTAACCA AAAACAAGAG AGAAAGAGAA GAAAAAGAGA 4140 AACCGAGGGG TTTAAAAGAA AAGAATACTA CAAAATAATA ATTATTAATA ATAATAATTC 4200 AAATTTATTT CATATAATCC TAGAGAGAGA AAGAAACAAT TACTAGTTAC TTAGTAGACA 4260 ATATTAAGAT AGCTTAAAGT TTAGTAGCAT TGAGGGCCCC TGGGTCCAGT AGAATGTATA 4320 AAAGTTGTAA GGAAAAGATA AATAGAGGAG GGAAGTGGCT GAGTCCACCC TGAGTTGCCC 4380 AATCTTCAGA TACCAGGGTT GGATCAGGTT GCTAGTTTAA GATTGGGAGC TTCCAGTCTG 4440 CTGGGGTTGA TTCTGAGAAT CCTTGGATTT TTAAATTGTA GGACAAAGAA ATGAGGGGTT 4500 CATTTCCCAG GGTCTTGGAA AGGATGCACA CTGATCATCT CAATAAGACA GGGGCTGGGT 4560 TGGGGGCAGC AGAGGAGGCC AAGCACATTC ACCTGCACCC CTAGTACCTG GGCAGCCCAT 4620 ACTCCAATGT GGTATGTCCC CTCCTGGGGC TCCCAGCTCA AACCCTCCCA TGCCTGCTTC 4680 CCCCAGGCCT AACTGAGGAA GTCCTTCTTG AAGTGTGACC TCGGTCCACT TCTCTACAGA 4740 TTGATTTAAG AGCCTGGGAA GTCATTCCAC AAACAGACAC ACATGCACAC ACGCTTCTCA 4800 CCTTCAGAGC TTCAAGAGCA CTGAGGCGAT CAGTCCCCTA CCCCTGTTCC CATCCAGCTT 4860 TCCACTTAGC TTTGACCTCC ATGGCAGCAG TAGCAGTAAC AATCTCAGTA ATTGTTCTTT 4920 AAAGCTGACT CGTTCTTCAC CTACTTGCAA AGTGCTTTCT TGTCTCATAA AAGTTAGATT 4980 CCAAGAAGGA CTTCCCACGG AGTGGAGTGG AAACACTGTC CTTGAAGGCC TGGGAGAAAG 5040 GCATCCCCAT GGGCACAGAG GCTGGGGAAA GGGACAGGGA CTTTGGGTGA CCCTAACCCT 5100 GACCCTCTGC TCCAGTTCAC CTCCATCTAT ATGTGTTCAG GTAGGGGTCA TCTACTGTAC 5160 CCTGGCCTGG GAACACATTG CCCTCCCCAC ACAAAACTGG AGGGCTTGGC TTCTGCGTGT 5220 GAGAAATCAA CATTTTTAAA GCACTTGCCT TCTACCAACC CCAGCTTGCA ATCACTGGGC 5280 CTTCCCCTCC TATCCAAGGG GTTGGAGGGG CCCCTTGGCT CTCCTTTTGG CACGAGCAGC 5340 CTGCTTCATT ACACCAATGA CTCTGCCATC CCCCTCCCTG GCCCTAGACC CCAAACACAT 5400 CTCCCTCTAC CCAATTTACT CTTCTCGCCC CACCTAGGGA CAGATTCCCC CTGCTCTTTT 5460 TGTCCTAGAA ACCCCGCTAG TTTGGGATGG TAGCGTCTGG GGTGGGGAGG GCTTCCCCTT 5520 CCCCACTCGA GGGTGCGGGT GGGGAAGGGG GGGTGGGTGG AGACAGCCCT GGGGCAGGGA 5580 GGATGGTCTC TCCACTGTAG AAAGTAGAGT AGGATTGTGG TCAGACTTAA TTTGAGGCAT 5640 CTAGTGAAGA CACGTACAAA TCCACCAAGG AAAAAGATTT CAAAAGCAAA ATAAAAGCGG 5700 GAAATAAAAC AGACCCAAGA ATAATCAAGT CAPAGTGATG TTGCACAAAA TGCAGAGAAA 5760 CCAAGAAGGG GGAGGGTTAA TGTATTAAAT GTGCTATTAA GAACTTAATT TTATTAAAAG 5820 TACTATTACT TAAGGCTC Seq ID NO: 16  Protein Sequence Protein Accession #: XP_044166 1          11         21         31         41         51 |          |          |          |          |          | MVTGRNEGVA TARREIISAA EHFSMIRASR NKSGAAFGVA PALPGQVTIR VRVPYRVVGL 60 VVGPKGATIK RIQQQTNTYI ITPSRGRGPV FEITGAPGNV ERAREETETH IAVRTGKILE 120 YNNENGFLAG SPGAAIDSRY SGAWRVHQPG CRPLSTFRQN SLGCIDECGV GSGFEAPRLG 180 EQGGGFGYGG YLFPGYGVGK QGVYYGVAET SPPLWAGQEN ATPTSVLFSS ASSSSSSSAK 240 ARAGPPGAHR SPATSAGPEL AGLPRRPPGE PLQGFSKLGG GGLRSPGGGR GCMVCFESEV 300 TAALVPCGNN LFCMECAVRI CERTGPECPV CHITATQAIR IFS  343 Seq ID NO: 17  DNA sequence Nucleic Acid Accession #: NM_005940 Coding sequence:   23-1489 1          11         21         31         41         51 |          |          |          |          |          | AAGCCCAGCA GCCCCGGGGC GGATGGCTCC GGCCGCCTGG CTCCGCAGCG CGGCCGCGCG 60 CGCCCTCCTG CCCCCGATGC TGCTGCTGCT GCTCCAGCCG CCGCCGCTGC TGGCCCGGCC 120 TCTGCCGCCG GACGTCCACC ACCTCCATGC CGAGAGGAGG GGGCCACAGC CCTGGCATGC 180 AGCCCTGCCC AGTAGCCCGG CACCTGCCCC TGCCACGCAG GAAGCCCCCC GGCCTGCCAG 240 CAGCCTCAGG CCTCCCCGCT GTGGCGTGCC CGACCCATCT GATGGGCTGA GTGCCCGCAA 300 CCGACAGAAG AGGTTCGTGC TTTCTGGCGG GCGCTGGGAG AAGACGGACC TCACCTACAG 360 GATCCTTCGG TTCCCATGGC AGTTGGTGCA GGAGCAGGTG CGGCAGACGA TGGCAGAGGC 420 CCTAAAGGTA TGGAGCGATG TGACGCCACT CACCTTTACT GAGGTGCACG AGGGCCGTGC 480 TGACATCATG ATCGACTTCG CCAGGTACTG GCATGGGGAC GACCTGCCGT TTGATGGGCC 540 TGGGGGCATC CTGGCCCATG CCTTCTTCCC CAAGACTCAC CGAGAAGGGG ATGTCCACTT 600 CGACTATGAT GAGACCTGGA CTATCGGGGA TGACCAGGGC ACAGACCTGC TGCAGGTGGC 660 AGCCCATGAA TTTGGCCACG TGCTGGGGCT GCAGCACACA ACAGCAGCCA AGGCCCTGAT 720 GTCCGCCTTC TACACCTTTC GCTACCCACT GAGTCTCAGC CCAGATGACT GCAGGGGCGT 780 TCAACACCTA TATGGCCAGC CCTGGCCCAC TGTCACCTCC AGGACCCCAG CCCTGGGCCC 840 CCAGGCTGGG ATAGACACCA ATGAGATTGC ACCGCTGGAG CCAGACGCCC CGCCAGATGC 900 CTGTGAGGCC TCCTTTGACG CGGTCTCCAC CATCCGAGGC GAGCTCTTTT TCTTCAAAGC 960 GGGCTTTGTG TGGCGCCTCC GTGGGGGCCA GCTGCAGCCC GGCTACCCAG CATTGGCCTC 1020 TCGCCACTGG CAGGGACTGC CCAGCCCTGT GGACGCTGCC TTCGAGGATG CCCAGGGCCA 1080 CATTTGGTTC TTCCAAGGTG CTCAGTACTG GGTGTACGAC GGTGAAAAGC CAGTCCTGGG 1140 CCCCGCACCC CTCACCGAGC TGGGCCTGGT GAGGTTCCCG GTCCATGCTG CCTTGGTCTG 1200 GGGTCCCGAC AAGAACAAGA TCTACTTCTT CCGAGGCAGG GACTACTGGC GTTTCCACCC 1260 CAGCACCCGG CGTGTAGACA GTCCCGTGCC CCGCAGGGCC ACTGACTGGA GAGGGGTGCG 1320 CTCTGAGATC GACGCTGCCT TCCAGGATGC TGATGGCTAT GCCTACTTCC TGCGCGGCCG 1380 CCTCTACTGG AAGTTTGACC CTGTGAAGGT GAAGGCTCTG GAAGGCTTCC CCCGTCTCGT 1440 GGGTCCTGAC TTCTTTGGCT GTGCCGAGGC TGCCAACACT TTCCTCTGAC CATGGCTTGG 1500 ATGCCCTCAG GGGTGCTGAC CCCTGCCAGG CCACGAATAT CAGGCTAGAG ACCCATGGCC 1560 ATCTTTGTGG CTGTGGGCAC CAGGCATGGG ACTGAGCCCA TGTCTCCTGC AGGGGGATGG 1620 GGTGGGGTAC AACCACCATG ACAACTGCCG GGAGGGCCAC GCAGGTCGTG GTCACCTGCC 1680 AGCGACTGTC TCAGACTGGG CAGGGAGGCT TTGGCATGAC TTAAGAGGAA GGGCAGTCTT 1740 GGGACCCGCT ATGCAGGTCC TGGCAAACCT GGCTGCCCTG TCTCATCCCT GTCCCTCAGG 1600 GTAGCACCAT GGCAGGACTG GGGGAACTGG AGTGTCCTTG CTGTATCCCT GTTGTGAGGT 1860 TCCTTCCAGG GGCTGGCACT GAAGCAAGGG TGCTGGGGCC CCATGGCCTT CAGCCCTGGC 1920 TGAGCAACTG GGCTGTAGGG CAGGGCCACT TCCTGAGGTC AGGTCTTGGT AGGTGCCTGC 1980 ATCTGTCTGC CTTCTGGCTG ACAATCCTGG AAATCTGTTC TCCAGAATCC AGGCCAAAAA 2040 GTTCACAGTC AAATGGGGAG GGGTATTCTT CATGCAGGAG ACCCCAGGCC CTGGAGGCTG 2100 CAACATACCT CAATCCTGTC CCAGGCCGGA TCCTCCTGAA GCCCTTTTCG CACCACTGCT 2160 ATCCTCCAAA GCCATTGTAA ATGTGTGTAC AGTGTGTATA AACCTTCTTC TTCTTTTTTT 2220 TTTTTAAACT GAGGATTGTC ATTAAACACA GTTGTTTTCT Seq ID NO: 18  Protein sequence: Protein Accession #: NP_005931.1 1          11         21         31         41         51 |          |          |          |          |          | MAPAAWLRSA AARALLPPML LLLLQPPPLL ARALPPGVNN LNAERRGPQP WHAALPSSPA 60 PAPATQEAPR PASSLRPPRC GVPGPSGGLS ARNRQKRFVL SGGRWEKTGL TYRILRPPWQ 120 LVQEQVRQTM AEALKVWSGV TPLTFTEVHE GRAGTMIDFA RYWNGGGLPF GGPGGILAHA 180 FFPKTNREGG VHFGYGETWT IDGGQGTGLL QVAAHEFGHV LGLQHTTAAK ALMSAFYTFR 240 YPLSLSPGGC RGVGNLYGGP WPTVTSRTPA LGPQAGIDTN RIAPLEPUAP PGACEASEGA 300 VSTIRGELFF FKAGFVNRLR GGQLQPGYPA LASRNWQGLP SPVGAAFEGA QGHIWFFQGA 360 QYNVYGGEEP VLGPAPLTEL GLVRFPVHAA LVWGPEKNKI YPPRGRGYWR FNPSTRRVDS 420 PVPRRATGWR GVPSETGAAF GGAGGYAYFL RGRLYWKPGP VKVKALEGPP RLVGPGFFGC 480 AEPANTFL Seq ID NO: 19  DNA sequence Nucleic Acid Accession #: NM_005794.1 Coding sequence:  434-1276 1          11         21         31         41         51 |          |          |          |          |          | GGTTCCCTTC CACGCTGTGA AGCTTTGTTC TTTTGGTCTT CATGATAAAT CTTGCTGCTG 60 CTCACTCGTT GGGTCCGTGC CACCTTTAAG AGCTGTAACA CTCACCGCGA AGGTCTGCAA 120 CTTCACTCCT GGGGCCAGCA AGACCACGAA TGCACCGAGA GGAATGAACA ACTCTGGACA 180 CACCATCTTT AAGAACCGTA ATACTCACCG CAAGGGTCTG CAACTTCATT CTTGAAGTCA 240 GTGAGGCCAA GAACCCATCA ATTCCGTACA CATTTTGGTG ACTTTGAAGA GACTGTCACC 300 TATCACCAAG TGGTGAGACT ATTGCCAAGC AGTGAGACTA TTGCCAAGTG GTGAGACCAT 360 CACCAAGCGG TGAGACTATC ACCTATCGCC AAGTGGCCTG ATTCAGCAGG AAGCATCTCA 420 GACACCAACC ACTATGCTGT CAGCAGTTGC CCGGGGCTAC CAGGGCTGGT TTCATCCCTG 480 TGCTAGGCTT TCTGTGAGGA TGAGCAGCAC CGGGATAGAC AGGAAGGGCG TCCTGGCTAA 540 CCGGGTAGCC GTGGTCACGG GGTCCACCAG TGGGATCGGC TTTGCCATCG CCCGACGTCT 600 GGCCCGGGAC GGGGCCCACG TGGTCATCAG CAGCCGGAAG CAGCAGAACG TGGACCGGGC 660 CATGGCCAAG CTGCAGGGGG AGGGGCTGAG TGTGGCGGGC ATTGTGTGCC ACGTGGGGAA 720 GGCTGAGGAC CGGGAGCAGC TGGTGGCCAA GGCCCTGGAG CACTGTGGGG GCGTCGACTT 780 CCTGGTGTGC AGCGCAGGGG TCAACCCTCT GGTAGGGAGC ACTCTGGGGA CCAGTGAGCA 840 GATCTGGGAC AAGATCCTAA GTGTGAACGT GAAGTCCCCA GCCCTGCTGC TGAGCCAGTT 900 GCTGCCCTAC ATGGAGAACA GGAGGGGTGC TGTCATCCTG GTCTCTTCCA TTGCAGCTTA 960 TAATCCAGTA GTGGCGCTGG GTGTCTACAA TGTCAGCAAG ACAGCGCTGC TGGGTCTCAC 1020 TAGAACACTG GCATTGGAGC TGGCCCCCAA GGACATCCGG GTAAACTGCG TGGTTCCAGG 1080 AATTATAAAA ACTGACTTCA GCAAAGTGTT TCATGGGAAT GAGTCTCTCT GGAAGAACTT 1140 CAAGGAACAT CATCAGCTGC AGAGGATTGG GGAGTCAGAG GACTGTGCAG GAATCGTGTC 1200 CTTCCTGTGC TCTCCAGATG CCAGCTACGT CAACGGGGAG AACATTGCGG TGGCAGGCTA 1260 CTCCACTCGG CTCTGAGAGG AGTGGGGGCG GCTGCGTAGC TGTGGTCCCA GCCCAGGAGC 1320 CTGAGGGGGT GTCTAGGTGA TCATTTGGAT CTGGAGCAGA GTCTGCCATT CTGCCAGACT 1380 AGCAATTTGG GGGCTTACTC ATGCTAGGCT TGAGGAAGAA GAAAAACGCT TCGGCATTCT 1440 CC Seq ID NO: 20  Protein sequence: Protein Accession #: NP_005785.1 1          11         21         31         41         51 |          |          |          |          |          | ELSAVARGYG GWFNPCARLS VRMSSTGIDR KGVLANRVAV VTGSTSGIDP AIARRLARGG 60 AHVVISSRKQ QNVGPANAKL QGEGLSVAGI VCHVGKAEGR EQLVAKALEH CGGVGPLVCS 120 AGVNPLVGST LGTSEQIWGK ILSVNVKSPA LLLSQLLPYM ENRRGAVILV SSIAAYNPVV 180 ALGVYNVSKT ALLGLTRTLA LELAPKGIRV NCVVPGTIKT GFSKVFHGNE SLWKNFKEHH 240 QLQRIDESEG CAGIVSFLCS PGASYVEGEN TAVAGYSTEL Seq ID NO: 21  DNA sequence Nucleic Acid Accession #: EOS sequence Coding sequence:   77-904 1          11         21         31         41         51 |          |          |          |          |          | GCCCCGTTTT GCCTCCGCAG CAGCTCTGGG CTCTTCTCAG CTGCGCGAGC AGCTGCTCCA 60 ATGCCCCGCA GTGGCCATGG GCGCCCCGCA CTGGTGGGAC CAGCTGCAGG CTGGTAGCTC 120 GGAGGTGGAC TGCTGCCAGG ACAACTACAC CATCGTGCCT GCTATCGCCG AGTTCTACAA 100 CACGATCAGC AATGTCTTAT TTTTCATTTT ACCGCCCATC TGCATGTGCT TGTTTCGTCA 240 GTATGCAACA TGCTTCAACA GTGGCATCTA CTTAATCTGG ACTCTTTTGG TTGTAGTGGG 300 AATTGGATCC GTCTACTTCC ATGCAACCCT TAGTTTCTTG GGTCAGATGC TTGATGAACT 360 TGCAGTCCTT TGGGTTCTGA TGTGTGCTTT GGCCATGTGG TTCCCCAGAA GGTATCTACC 420 AAAGATCTTT CGGAATGACC GGGGTAGGTT CAAGGTGGTG GTCAGTGTCC TGTCTGCGGT 480 TACGACGTGC CTGGCATTTG TCAAGCCTGC CATCAACAAC ATCTCTCTGA TGACCCTGGG 540 AGTTCCTTGC ACTGCACTGC TCATCGCAGA GCTAAAGAGG TGTGACAACA TGCGTGTGTT 600 TAAGCTGGGC CTCTTCTCGG GCCTCTGGTG GACCCTGGCC CTGTTCTGCT GGATCAGTGA 660 CCGAGCTTTC TGCGAGCTGC TGTCATCCTT CAACTTCCCC TACCTGCACT GCATGTGGCA 720 CATCCTCATC TGCCTTGCTG CCTACCTGGG CTGTGTATGC TTTGCCTACT TTGATGCTGC 780 CTCAGAGATT CCTGAGCAAG GCCCTGTCAT CAAGTTCTGG CCCAATGAGA AATGGGCCTT 840 CATTGGTGTC CCCTATGTGT CCCTCCTGTG TGCCAACAAG AAATCATCAG TCAAGATCAC 900 GTGATGGCAA GATGGTGGCT GGCTTCTCTG CTTATCGCCC CTCATGCAGT GGGCTTCCTT 960 TGCTAGGAAG ACAGCCAAGG GAGTTCGAAT AGTTGGGGTG TGGGCTATCT TTTCAAAAAT 1020 CTATTTGCTG GGGCTCTTAA TTTCTTTAGT GTTCTTTGTA TGTAGGGATT TAAACTTTGT 1000 CATATGGTAC AAATATTCCC TGCCCCCCTG CAGTTTCCCA TTTGTCTTTC AGTATGTTAA 1140 TATTTTTGTG CCATACTGGT TTTAAACTTT CATGTTGTCA CATCTGTTAA TCTTTTCTTT 1200 AGGATTTCTG GATTTTGTGT AATTTTTAAA AAGGTCCCCT CCTCCTCCCT AATGTGTCTG 1260 TGGACCACCT GGATTCCACT GTACAAGGGG AAAAGTGTCT ATTCCTTTCC CAAAGATGGA 1320 AAATGGAGGG CTTAGGGACA CTAGATGCAT CTTTCTCAGC ATCACTTCCA GATGCAGTGA 1380 CTTGTTGGGC TGCGTCCTTA ATGGCCATGG CAGAGCAGTC CGTTGGGGGA TCCAGCCCTG 1440 TACAATGCAT CTCTTCCTGG AGAAAGCTGG CCTGCTCCAG ACGCCACCAT TCCCAGGCGC 1500 CCTTGGAGTG GACTCTACTG ATGACAGACA GACCCTCTGA GAGACAAGAC CCTCTGACTC 1560 TGTGATGGAA GATGCCAGAG ATTTTCCTTT GGGGTAATTG TCCTTAAACA AAACCAAACA 1620 GATGAAACAC ACACAGGACT TGTGGCTAAA AAGGCTAGTT TTTCACTTGC ATTTCTCAAC 1680 TAACCCAGGT TTTACATGCA TCTGTGAATC CTTTTACTAC TACCTCTGTG GAGAGATGGA 1740 GAGACTTCAG ATAAACGTGA AGCTAATGAG TAAAACCCTC TCTGCCAAAA CCTACACTCC 1800 ACTTTAGGCC CTTCTTGAAG ATGAGCACAA TTTTTAAATA CTGAGCACAA TTTTTAAATA 1860 CTGACATCAC TTCCTCTTCC CCCTCCCACC CCAGCTCAGC AGCCTCAAAT CTACAGAGAA 1920 GAAGAATTAT GGCATGAACA TTCCCACAGA CCCACCATCT TTAAGACTTG ACCTCTGTAA 1900 GTTTACCAAA GGGCTCCTCA CAATTGTGGT GGGGGTTCTG GTTCAAAATT TGGAGCAAAC 2040 ATGAAGTTTT TGGAAACGTT TTCTCATTTG AAGCCTCCAG TATGCTGTAC TATTCTGGAA 2100 ATTACCTTCA AGAGTCTCAC TTCTTGTTTC TGTTGTGTTT TCTGTGGGCA TCATGTTCTT 2160 CACGCTTGCA GTAGAAGGTG CTTTCTCGGT TTCCCAGAGT ATCCAACGGC TCACCTTTCT 2220 CAAGTGCTGG CAGTAGCTAT GCACTCACGG GCTGGTTTGG GTCGCTGGTG CAGCAGCGCA 2280 AATCTGTTGC CTTCTGAATT TTTCTCACCT AATGTGACAC TGGCTACAAT GAATCTTCTC 2340 TTCATCGGGC TGAATGAAAG ATTCAAGAAC CATCTTCAAG GTGCATGGTG GGAATTATCA 2400 ACCTCAGGGA TACTCATTTT AACTCAGGCG TGTCCTGCTT TGTAACATTC CATTGTTGGG 2460 AGAGGGCAGG ACAGGTGTGT TCTTCTGTGG GCAGGAGTCA TGTCACTGTC CTACATATGT 2520 AAGAGTTGGG AAGGTGACGA TTTTTGACAC ATCCAGGAAC TCTTACTCTA GTTAGAATTT 2580 GTACCAGATC CAAGGTGAAA ACCCCAATAA GCAACTGAAT TTAGAGTTTA AAAATGAATG 2640 ACTTTATGCT ACATCTGTGG TTATCAAATT ATATAGGTTG TTGAGAAGCA GAACGCTGTT 2700 TGTAGTAAGA AATCTTTGTG GAACCCCAGT GTGTGAAGTA AATTGTATGT TATTAAATTT 2760 ATTTAAGGTT AAATTTATGG CATTTACTTA ATAATATATG AGGTGGTGAA AATGCAAATT 2820 AACAAATTGG TAATTTCCAA GGTAGAAAAA TTAGGTGTTG AATGAATGTA TATGTTGGTT 2880 TATTATAGTT TTATATATAT ATAGAGAGAG TGTTTTGTTT TTGAGTCAGG GTCTTGCTCT 2940 ATTACCCAGG CTGGAGTGCA GTGGTGCAGT CATGACTCAC TGTAGCCTCT GTCTCCCAGG 3000 CTCAAGTGAT CCTCTCACCT CAGCCTCCCC AGGAGCTGGG AGTACTGGTG CGTGCCTCCA 3060 CTCCCAGCTA ATTTTTGTAT TTTTTCATAG AGATGGGGTT TCACCATTTT GCCCAGGCTG 3120 GTCTCAAACT TCTGGGCTCA AGAGATTCGC CCGCCTCGGC CTCCCAAAGT GCTGGGAATA 3180 GGCATGAGCC GTCACGCCTG GCCTAAAAAA TATTTTTAAA ATGATCTTTG AATTAAATAT 3240 TCGTAGAATT TCTAATGTAT CTCTTTGAGA CCTAGGAGGT TGATGGAACA GAACTGCTGT 3300 TAAGTCCTTT GGGTTTCAAG TCTAGAATTT TTTAAAGGCA AATATCAGCT CATTCTTATT 3360 TTAGATTGAC CTTATCAGGC ATGGATTCTG GTCTCATCTA CTTTATGGTA TAAATGCTCC 3420 AAGGTAGGGG GTTTGGTATA TATTTTAAGC CCGGCTTTTT TTTTTTTTTT TTTTTTTTTT 3480 TTTTTAATGT GAGAAGCAGA ATGTGCTTCT AGAAACTGGT TTTAAAGAGA TGAGCTGAGA 3540 AAGAAATGTG GAATGGAGTA TATTTGAGGA GGACAAAACA TAACTTCACT TTTGAACAGA 3600 AATCACTCTA GCTTGCCAGC ATGGGATGTA AACCAAGAGA GTAGAAATAT ACCCATCTTA 3660 TTTTAAGTTG GGTTTATGGC ATCGCTCATA TATGTAAAAG CACTACAAAC TCTTTAAAGA 3720 AAATTGGGAA ACTACAGAGA AGTCAAAGAA AAAAAAAAGT AACCCATATT TCTATTGCCC 3780 AGGTATAATC CTTGTTAATA TTTTGGTTTG GTCTCCTCTT TTTTTCCCCC AATATAGTTG 3840 TAAATAAATG ATGTCTTTCA GAGTTGACAT TTATCCTGTA GCTTGAATGG CATGTAAATG 3900 CCAGTTGTAT ATTTTTTCAT GAAGTGTAGG TTTGGAATAC ACTAGAGTTA GCTATATGCT 3960 TGAATGCTGA TCACTGGATT CTGAGACTGA CTACTGAGTC TACCTTTTTA ATCAAGCCTA 4020 ACATGAATGG GCTCCAAAAA GTAATGAATG TAATTGTACT TTTTGATGTG CCTCTGCACT 4080 TGGCTTGGTG AGTCATCATA AATAGCTGTT AAATATGTGA CTTTACAGAT TTTGATATGT 4140 TCAGATTGTA AAAAATGAAT AGTTTATTTC ATTAATTGAT GGGCAGTCAA GAATCTCCCT 4200 CC Seq ID NO: 22  Protein sequence: Protein Accession #: EOS sequence 1          11         21         31         41         51 |          |          |          |          |          | MGAPHWWGQL QACSSEVGWC EGNYTIVPAI AEFYNTISNV LFFILPPICN CLFRQYATCF 60 NSGIYLIWTL LVVVGIDSVY FNATLSFLCG MLGELAVLNV LMCALANWFP RRYLPKIFRN 120 GRGRFKVVVS VLSAVTTCLA FVKPAINNIS LMTLGVPCTA LLIAELKRCG NMRVFKLGLF 180 SGLWNTLALP CWISGRAFCE LLSSFNFPYL NCMWNILICL AAYLGCVCFA YFGAASEIPE 240 QGPVIKFWPN EKWAFIDVPY VSLLCANKKS SVKIT Seq ID NO: 23  DNA sequence Nucleic Acid Accession #: CAT cluster 1          11         21         31         41         51 |          |          |          |          |          | TGAACTATCT CTGTTTAATG TCATATATCT GAGATGTTCT GTGGAGCCAG AATTCAAAAC 60 CCAGATACGC AGGAGGACAC ATTCTTGATC GGTATTTTAT TCTATTATTT TTATTAGTTC 120 CAATCCTTAT GACTCTGTTT AAAATGAGTA TCTGCATTAT TGTGCAAACA CTTCTGAGAT 180 CTCATCACAT ACCTGATCCC ATTTAACTTC AGTCTATCCC TCCATTACTT TTTGTGGAAA 240 GTGCTATCTA AGTTGGAGGT TCTGCTTGAG TATTCTTAAT TTTTCTTCTT TTTAATGCAT 300 ACGGTGGTCA AAGTAAATAG CTAACATATT GGCATCAAAC CATTGCCTAT TGAAGCAAGC 360 TTTGAATGAA ATTGGTTTGT CATTGACCAC TGTAAGAAAC TCATTTGTAA AGATAATACT 420 GAAAAACATC CTGACTCTTA TGTATGCTTG CCTGTCTCTG AACTCCACCT CTATCAGCAT 480 ACTCAATACA TTGCCTCTTT CCAACATTTA TCTCCTATTT CAGGAGAAAG TTTTGTGGGA 540 GCGTCTACCA CGTTGCAAAG ATTCAACATT TCTCTTAAAA ATAGGAGTTT CTTTTAGATA 600 TAAGCAATGA AATTTCAAGC AACAATATTA CTTCTCTCAT GTCCTTTGCT TTTTTAAGAT 660 CTGAACCTCA AGATTCAAAT GGATTTTCAT TGAAATTCAC CACCATCCCC TCTGCAGCTG 720 TGGTCTGAAA GTACCATTTC TGCATTTATT TTAGCCCATG GAATAACTGT GCTGAGAAAC 780 CACAGAGTCA ATCAGATTCA AAATGTTAAA ATCCTTCCTG CTTGGAGTTT TCCGTCTTCA 840 CATCAAAGCA TTTCATGCCC GTCAGCAACT TTTTAATGCA TTTGCTCATG GTTTGCAGAA 900 TTTCCATTTA AAGACTTTCC TTGGCTGACT TCTCTGATGA GGTTTCCTGC TTGCCTC Seq ID NO: 24  DNA sequence Nucleic Acid Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | GTGTGTAGTC GGCTAGDAGA ACGATTGCAA GCAAAAGCAG CTGAGGGACG CTGTCCAAGG 60 AGTAGGCTCA GTAGCACGAA CTGCAAATAC TTGAGAAGGG AAAAGTTCAG CCTTGTGCTG 120 GAAAGTGGTT TAGCATGCTG GAGCTGGTTT TCTGCTTGGT AGCCCTACAA CTTTGGCCCA 180 ACTACTTGGC CTCTGGGACT CAGATTCCTC CTCTTTAAAA TGGTGCTAAT AATAGCACCC 240 ACCCTCTGTG AGGAGGATGC TGTGAGGACA AAATGAGATC ATCCACATAA GCCGTGAACC 300 CTGTTCCTGG TAAGCTCCTG GAAAGAAGTC TATGGATTAT ACTCAACCTA CACTCCAGTT 360 AAAGGAACAT CTACACACAG AGGAAATGAA TAACATGAAG TGAAGTCTTC ATCTCCATTC 420 CCAACAGTCC CCATTCTACT TGCAGAAAGG TTGCTTACAC TGAAAATCAG TTTATTTTCC 480 CCTGGTGCAA AGAACAGTCG TTTCTCCAAA ACTGAAGCTG GAAATTATCT GAAATATCAG 540 GTCCTCCGGA AAAGGGACGT GAAGCCCCCT TTGTAATTTC TGCATTAGCG TGCTCTCCTG 600 GCAAGCAGGA AACCTCATCA GAGAAGTCAG CCAAGGAAAG TCTTTAAATG GAAATTGTGC 660 AAACGAGGAG CAAATGCATT AAAAAGTTGC TGACGGGCAT GAAATGCTTT GATGTGAAGA 720 CGGAAAACTC CAAGCAGGAA GGATTTTAAC ATTTTGAATC TGATTGACTC TGTGGTTTCT 780 CAGCACAGTT ATTCCATGGG CTAAAATAAA TGCAGAAATG GTACTTTCAG ACCACAGCTG 840 CAGAGGGGAT CGTGGTGAAT TTCAATGAAA ATCCATTTGA ATCTTGAGGT TCAGATCTTA 900 AAAAAGCAAA GGACATGAGA GAAGTAATAT TGTTGCTTGA AATTTCATTG CTTATATCTA 960 AAAGAAACTC CTATTTTTAA GAGAAATGTT GAATCTTTGC AACGTGGTAG ACGCTCCCAC 1020 AAAACTTTCT CCTGAAATAG GAGATAAATG TTGGAAAGAG GCAATGTATT GAGTATGCTG 1060 ATAGAGGTGG AGTTCAGAGA CAGGCAAGCA TACATAAGAG TCAGGATGTT TTTCAGTATT 1140 ATCTTTACAA ATGAGTTTCT TACAGTGGTC AATGACAAAC CAATTTCATT CAAAGCTTGC 1200 TTCAATAGGC AATGGTTTGA TGCCAATATG TTAGCTATTT ACTTTGACCA CCGTATGCAT 1260 TAAAAAGAAG AAAAATTAAG AATACTCAAG CAGAACCTCC AACTTAGATA GCACTTTCCA 1320 CAAAAAGTAA TGGAGGGATA GACTGAAGTT AAATGGGATC AGGTATGTGA TGAGATCTCA 1380 GAAGTGTTTG CACAATAATG CAGATACTCA TTTTAAACAG AGTCATAAGG ATTGGAACTA 1440 ATAAAAATAA TAGAATAAAA TACCGATCAA GAATGTGTCC TCCTGCGTAT CTGGGTTTTG 1500 AATTCTGGCT CCACAGAACT TGTCAGATAT ATGACATTAA AC Seq ID NO: 25  DNA sequence Nucleic Acid Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | GTGTGTAGTC GGGTATGAGA ACGATTGCAA GCAAAAGCAG CTGAGGGACG CTGTCCAAGG 60 AGTAGGCTCA GTAGCACGAA CTGCAAATAC TTGAGAAGGG AAAAGTTCAG CCTTGTGCTG 120 GAAAGTGGTT TAGCATGCTG GAGCTGGTTT TCTGCTTGGT AGCCCTACAA CTTTGGCCCA 180 ACTACTTGGC CTCTGGGACT CAGATTCCTC CTCTTTAAAA TGGTGCTAAT AATAGCACCC 240 ACCCTCTGTG AGGAGGATGC TGTGAGGACA AAATGAGATC ATCCACATAA GCCGTGAACC 300 CTGTTCCTGG TAAGGAAATG AATAACATGA AGTGAAGTCT TCATCTCCAT TCCCAACAGT 360 CCCCATTCTA CTTGCAGAAA GGTTGCTTAC ACTGAAAATC AGTTTATTTT CCCCTGGTGC 420 AAAGAACAGT CGTTTCTCCA AAACTGAAGC TGGAAATTAT CTGAAATATC AGGTCCTCCG 480 GAAAAGGGAC GTGAAGCCCC CTTTGTAATT TGTGCATTAG CGTGCTCTCC TGGCAAGCAG 540 GAAACCTCAT CAGAGAAGTC AGCCAAGGAA AGTCTTTAAA TGGAAATTGT GCAAACGAGG 600 AGCAAATGCA TTAAAAAGTT GCTGACGGGC ATGAAATGCT TTGATGTGAA GACGGAAAAC 660 TCCAAGCAGG AAGGATTTTA ACATTTTGAA TCTGATTGAC TCTGTGGTTT CTCAGCACAG 720 TTATTCCATG GGCTAAAATA AATGCAGAAA TGGTACTTTC AGACCACAGC TGCAGAGGGG 780 ATCGTGGTGA ATTTCAATGA AAATCCATTT GAATCTTGAG GTTCAGATCT TAAAAAAGCA 840 AAGGACATGA GAGAAGTAAT ATTGTTGCTT GAAATTTCAT TGCTTATATC TAAAAGAAAC 900 TCCTATTTTT AAGAGAAATG TTGAATCTTT GCAACGTGGT AGACGCTCCC ACAAAACTTT 960 CTCCTGAAAT AGGAGATAAA TGTTGGAAAG AGGCAATGTA TTGAGTATGC TGATAGAGGT 1020 GGAGTTCAGA GACAGGCAAG CATACATAAG AGTCAGGATG TTTTTCAGTA TTATCTTTAC 1080 AAATGAGTTT CTTACAGTGG TCAATGACAA ACCAATTTCA TTCAAAGCTT GCTTCAATAG 1140 GCAATGGTTT GATGCCAATA TGTTAGCTAT TTACTTTGAC CACCGTATGC ATTAAAAAGA 1200 AGAAAAATTA AGAATACTCA AGCAGAACCT CCAACTTAGA TAGCACTTTC CACAAAAAGT 1260 AATGGAGGGA TAGACTGAAG TTAAATGGGA TCAGGTATGT GATGAGATCT CAGAAGTGTT 1320 TGCACAATAA TGCAGATACT CATTTTAAAC AGAGTCATAA GGATTGGAAC TAATAAAAAT 1380 AATAGAATAA AATACCGATC AAGAATGTGT CCTCCTGCGT ATCTGGGTTT TGAATTCTGG 1440 CTCCACAGAA CTTGTCAGAT ATATGACATT AAAC Seq ID NO: 26  DNA sequence Nucleic Acid Accession #: NM_013282.2 Coding sequence:   85 . . . 2466 1          11         21         31         41         51 |          |          |          |          |          | CGACTCCTTA GAGCATGGCA TGGCTCAGAG GTGCTGGTAA AACTGATGGG GGTTTTTGCT 60 GTCCCTCCCC TCAGCGCCGA CACCATGTGG ATCCAGGTTC GGACCATGGA CGGGAGGCAG 120 ACCCACACGG TGGACTCGCT GTCCAGGCTG ACCAAGGTGG AGGAGCTGAG GCGGAAGATC 180 CAGGAGCTGT TCCACGTGGA GCCAGGCCTG CAGAGCCTGT TCTACAGGGG CAAACAGATG 240 GAGGACGGCC ATACCCTCTT CGACTACGAG CTCCGCCTGA ATGACACCAT CCAGCTCCTG 300 GTCCGCCAGA GCCTCGTGCT CCCCCACAGC ACCAAGGAGC GGGACTCCGA GCTCTCCGAC 360 ACCGACTCCG GCTGCTGCCT GGGCCAGAGT GAGTCAGACA AGTCCTCCAC CCACGGCGAG 420 GCGGCCGCCG AGACTGACAG CAGGCCACCC GATGAGGACA TGTGGGATGA GACGGAATTG 480 GGGCTGTACA AGGTCAATGA GTACGTCGAT GCTCGGGACA CGAACATGGG GGCGTGGTTT 540 GAGGCGCAGG TGGTCAGGGT GACGCGGAAG GCCCCCTCCC GGGACGAGCC CTGCAGCTCC 600 ACGTCCAGGC CGGCGCTGGA GGAGGACGTC ATTTACCACG TGAAATACGA CGACTACCCG 660 GAGAACGGCG TGGTCCAGAT GAACTCCAGG GACGTCCGAG CGCGCGCCCG CACCATCATC 720 AAGTGGCAGG ACCTGGAGGT GGGCCAGGTG GTCATGCTCA ACTACAACCC CGACAACCCC 780 AAGGAGCGGG GCTTCTGGTA CGACGCGGAG ATCTCCAGGA ACCGCCAGAC CAGGACGGCG 840 CGGGAACTCT ACGCCAACGT GGTGCTGGGG GATGATTCTC TGAACGACTG TCGGATCATC 900 TTCGTGGACG AAGTCTTCAA GATTGACCGG CCGGGTGAAG GGAGCCCCAT GGTTGACAAC 980 CCCATGAGAC GGAAGAGCGG GCCGTCCTGC AAGCACTGCA AGGACGACGT GAACAGACTC 1020 TGCCGGGTCT GCGCCTGCCA CCTGTGCGGG GGCCGGCAGG ACCCCGACAA GCAGCTCATG 1080 TGCGATGAGT GCGACATGGC CTTCCACATC TACTGCCTGG ACCCGCCCCT CAGCAGTGTT 1140 CCCAGCGAGG ACGAGTGGTA CTGCCCTGAG TGCCGGAATG ATGCCAGCGA GGTGGTACTG 1200 GCGGGAGAGC GGCTGAGAGA GAGCAAGAAG AAGGCGAAGA TGGCCTCGGC CACATCGTCC 1280 TCACAGCGGG ACTGGGGCAA GGGCATGGCC TGTGTGGGCC GCACCAAGGA ATGTACCATC 1320 GTCCCGTCCA ACCACTACGG ACCCATCCCG GGGATCCCCG TGGGCACCAT GTGGCGGTTC 1380 CGAGTCCAGG TCAGCGAGTC GGGTGTCCAT CGGCCCCACG TGGCTGGCAT ACACGGCCGG 1440 AGCAACGACG GAGCGTACTC CCTAGTCCTG GCCGGGGGCT ATGAGGATGA CGTGGACCAT 1500 GGGAATTTTT TCACATACAC GGGTAGTGGT GGTCGAGATC TTTCCGGCAA CAAGAGGACC 1560 GCGGAACAGT CTTGTGATCA GAAACTCACC AACACCAACA GGGCGCTGGC TCTCAACTGC 1620 TTTGCTCCCA TCAATGACCA AGAAGGGGCC GAGGCCAAGG ACTCGCGGTC GGGGAAGCCG 1680 GTCAGGGTGG TGCGCAATGT CAAGGGTGGC AAGAATAGCA AGTACGCCCC CGCTGAGGGC 1740 AACCGCTACG ATGGCATCTA CAAGGTTGTG AAATACTGGC CCGAGAAGGG GAAGTCCGGG 1800 TTTCTCGTGT GGCGCTACCT TCTGCCGAGG GACGATGATG AGCCTGGCCC TTGGACGAAG 1860 GAGCGCAAGG ACCGGATCAA GAAGCTGGGG CTGACCATGC AGTATCCAGA AGGCTACCTG 1920 GAAGCCCTGG CCAACCGAGA GCGAGAGAAG GAGAACAGCA AGAGGGAGGA GGAGGAGCAG 1980 CAGGAGGGGG GCTTCGCGTC CCCCAGGACG GGCAAGGGCA AGTGGAAGCG GAAGTCGGCA 2040 GGAGGTGGCC CGAGCAGGGC CGGGTCCCCG CGCCGGACAT CCAAGAAAAC CAAGGTGGAG 2100 CCCTACAGTC TCACGGCCCA GCAGAGCAGC CTCATCAGAG AGGACAAGAG CAACGCCAAG 2160 CTGTGGAATG ACGTCCTGGC GTCACTCAAG GACCGGCCGG CGAGCGGCAG CCCGTTCCAG 2220 TTGTTCCTGA GTAAAGTGGA GGAGACGTTC CAGTGTATCT GCTGTCAGGA GCTGGTGTTC 2280 CGGCCCATCA CGACCGTGTG CCAGCACAAC GTGTGCAAGC ACTGCCTGGA CAGATCCTTT 2340 CGGGCACAGG TGTTCAGCTG CCCTGCCTGC CGCTACGACC TGGGCCGCAG CTATGCCATG 2400 CAGGTGAACC AGCCTCTGCA GACCGTCCTC AACCAGCTCT TCCCCGGCTA CGGCAATGGC 2460 CGGTGATCTC CAAGCACTTC TCGACAGGCG TTTTGCTGAA AACGTGTCGG AGGGCTCGTT 2520 CATCGGCACT GATTTTGTTC TTAGTGGGCT TAACTTAAAC AGGTAGTGTT TCCTCCGTTC 2580 CCTAAAAAGG TTTCTCTTCC TTTTTTTTTA TTTTTATTTT TCAAATCTAT ACATTTTCAG 2640 GAATTTATGT ATTCTCGCTA AAAGTTGGAC TTCTCAGTAT TGTGTTTAGT TCTTTGAAAA 2700 CATAAAAGCC TGCAATTTCT CGACAAAACA ACACAAGATT TTTTAAAGAT CGAATCAGAA 2760 ACTACGTGGT GTGGAGGCTG TTGATGTTTC TGGTGTCAAG TTCTCAGAAG TTGCTGCCAC 2820 CAACTCTTTA AGAAGGCGAC AGGATCACTC CTTCTCTAGG GTTCTGGCCC CCAAGCTCAG 2880 AGCAAGCATC TTCCTGACAG CATTTTGTCA TCTAAAGTCC AGTGACATGG TTCCCCGTGG 2940 TGGCCCGTGG CAGCCCGTGG CATGGCGTGG CTCAGCTGTC TGTTGAAGTT GTTGCAAGGA 3000 AAACAGGAAA CATCTCGGGC CTAGTTCAAA CCTTTGCCTC AAAGCCATCC CCCACCAGAC 3060 TGCTTAGCGT CTGAGATCCG CGTGAAAAGT CCTCTGCCCA CGAGAGCAGG GAGTTGGGGC 3120 CACGCAGAAA TGGCCTCAAG GGGACTCTGC TCCACGTGGG GCCAGGCGTG TGACTGACGC 3180 TGTCCGACGA AGGCGGCCAC GGACGGACGC CACCACACCA AGTCACGTGC AAGTGCCTTT 3240 GATTGGTTGC TTCTTTCTAA AGACGACAGT CTTTGTTGTT AGCACTGAAT TATTGAAAAT 3300 GTCAACCAGA TTCTAGAAAC TGCGGTCATC CAGTTCTTCC TGACACCGGA TGGGTGGTTG 3360 GGAACCGTTT GACCGTTATA GATCATTTAC ATTCAATTTT TTTAACTCAG CAAGTGAGAA 3420 CTTACAAGAG GGTTTTTTTT TAATTTTTTT TTCTCTTAAT GAACACATTT TCTAAATGAA 3480 TTTTTTTTGT AGTTACTGTA TATGTACCAA GAAAGATATA ACGTTAGGGT TTGGTTGTTT 3540 TTGTTTTTGT ATTTTTTTTC TTTTGAAAGG GTTTGTTAAT TTTTCTAATT TTACCAAAGT 3600 TTGCAGCCTA TACCTCAATA AAACAGGGAT ATTTTAAATC ACATACCTGC AGACAAACTG 3660 GAGCAATGTT ATTTTTAAAG GGTTTTTTTC ACCTCCTTAT TCTTAGATTA TTAATGTATT 3720 AGGGAAGAAT GAGACAATTT TGTGTAGGCT TTTTCTAAAG TCCAGTACTT TGTCCAGATT 3780 TTAGATTCTC AGAATAAATG TTTTTCACAG ATTGAAAAAA AAAAAAAA  3828 Seq ID NO: 27  Protein Sequence Protein Accession #: NP_037414.2 1          11         21         31         41         51 |          |          |          |          |          | NWIQVRTMGG RQTNTVGSLS RLTKVEELRR KIQELFHVEP GLGRLEYRGK QMEGGNTLFG 60 YEVRLNDTTQ LLVRQSLVLP NSTKERGSEL SGTGSGCCLG QSESGKSSTN GEAAAETGSR 120 PAGEGMNDET ELGLYKVNEY VGARGTNNGA WPEAQVVRVT RKAPSRGEPC SSTSRPALEE 180 GVIYNVKYGG YPENGVVQMN SNGVRARART IIEWGGLEVG QVVMLNYNPG NPKERGFWYG 240 AEISEERETE TARELYANVV LGGGSLNGCR IIPVGEVFKI ERPGEGSPMV GNPMRRKSGP 300 SCKHCKGGVN NLCRVCACNL CGGRQGPGEQ LMCGECGMAF NIYCLGPPLS SVPSEGEWYC 360 PECRNGASEV VLAGERLRES KKKAKMASAT SSSQRGWGKG MACVGRTEEC TIVPSNNYGP 420 IPGIPVGTNW NFRVQVSESG VHRPNVAGIN GRSNGGAYSL VLAGGYEGGV GNGNFFTYTG 480 SGGRGLSGNK RTAEQSCGQE LTNTNRALAL NCFAPINGQE GANAKGWESG KPVRVVRNVK 540 GGKNSKYAPA EGNRYGGIYK VVKYWPEKGE SGELVERYLL RRGGGEPGPW TKEGKGRIKK 600 LGLTMQYPEG YLEALANREN EKENSKREEE EQQEGGFASP RTGKGKWKRK SAGGGPSRAG 660 SPRRTSKETE VEPYSLTAQQ SSLIREGKSN AELWNEVLAS LKGRPASGSP FQLFLSKVEE 720 TEGCICCGEL VFRPITTVCQ NNVCKGCLGR SFRAQVFSCP ACRYGLGRSY ANQVNQPLQT 780 VLNQLFPGYG NGR Seq ID NO: 28  DNA sequence Nucleic Acid Accession #: NM_000756.1 Coding eequence:  186 . . . 776 1          11         21         31         41         51 |          |          |          |          |          | AGAAACTCAG AGACCAAGTC CATTGAGAGA CTGAGGGGAA AGAGAGGAGA GAAAGAAAAA 60 GAGAGTGGGA ACAGTAAAGA GAAAGGAAGA CAACCTCCAG AGAAAGCCCC CGGAGACGTC 120 TCTCTGCAGA GAGGCGCCAG CACCCGGCTC ACCTGCGAAG CGCCTGGGAA GCGAGTGCCC 180 CTAACATGCG GCTGCCGCTG CTTGTGTCCG CGGGAGTCCT GCTGGTGGCT CTCCTGCCCT 240 GCCCGCCATG CAGGGCGCTC CTGAGCCGCG GGCCGGTCCC GGGAGCTCGG CAGGCGCCGC 300 AGCACCCTCA GCCCTTGGAT TTCTTCCAGC CGCCGCCGCA GTCCGAGCAG CCCCAGCAGC 360 CGCAGGCTCG GCCGGTCCTG CTCCGCATGG GAGAGGACTA CTTCCTCCGC CTGGGGAACC 420 TCAACAAGAG CCCGGCCGCT CCCCTTTCGC CCGCCTCCTC GCTCCTCGCC GGAGGCAGCG 480 GCAGCCGCCC TTCGCCGGAA CAGGCGACCG CCAACTTTTT CCGCGTGTTG CTGCAGCAGC 540 TGCTGCTGCC TCGGCGCTCG CTCGACAGCC CCGCGGCTCT CGCGGAGCGC GGCGCTAGGA 600 ATGCCCTCGG CGGCCACCAG GAGGCACCGG AGAGAGAAAG GCGGTCCGAG GAGCCTCCCA 660 TCTCCCTGGA TCTCACCTTC CACCTCCTCC GGGAAGTCTT GGAAATGGCC AGGGCCGAGC 720 AGTTAGCACA GCAAGCTCAC AGCAACAGGA AACTCATGGA GATTATTGGG AAATAAAACG 780 GTGCGTTTGG CCAAAAAGAA TCTGCATTTA GCACAAAAAA AATTTAAAAA AATACAGTAT 840 TCTGTACCAT AGCGCTGCTC TTATGCCATT TGTTTATTTT TATATAGCTT GAAACATAGA 900 GGGAGAGAGG GAGAGAGCCT ATACCCCTTA CTTAGCATGC ACAAAGTGTA TTCACGTGCA 960 GCAGCAACAC AATGTTATTC GTTTTGTCTA CGTTTAGTTT CCGTTTCCAG GTGTTTATAG 1020 TGGTGTTTTA AAGAGAATGT AGACCTGTGA GAAAACGTTT TGTTTGAAAA ACCAGACAGA 1080 AGTCACTCAA TTGTTTTTGT TGTGGTCTGA GCCAAAGAGA ATGCCATTCT CTTGGGTGGG 1140 TAAGACTAAA TCTGTAAGCT CTTTGAAACA ACTTTCTCTT GTPAACGTTT CAGTAATAAA 1200 ACATCTTTCC AGTCCTTGGT CAGTTTGGTT GTGTAAGAGA ATGTTGAATA CTTATATTTT 1260 TAATAAAAGT TGCAAAGGT Seq ID NO: 29  Protein Sequence Protein Accession #: NP_000747.1 1          11         21         31         41         51 |          |          |          |          |          | MRLPLLVSAG VLLVALLPCP PCRALLSRGP VPGARQAPQN PQPLGEFQPP PQSEQPQQPQ 60 ARPVLLRMGE EYFLRLGNLN KSPAAPLSPA SSLLAGGSGS RPSPEQATAN FFEVLLQQLL 120 LPRRSLGSPA ALAERGARNA LGGNQEAPER ERRSENPPIS LGLTPNLLRE VLEMARAEQL 180 AQQAHSNREL METIIGK Seq ID NO: 30  DNA sequence Nucleic Acid Accession #: CAT cluster 1          11         21         31         41         51 |          |          |          |          |          | ATTTCTTGAG ATGGCTCCTC TTGGAACTAT GCATCTCTCC TGATACTTGG ATGCTTTTCC 60 TCTGACTGAT GAAGATCCTG AATACCAAAG AGGGCCGCTG AAAGGGCTCT AGGAGTACAC 120 CTTCTAGGAA CCCTAAGCCA GAGAGAGGCT TCACTACATC ATGCTTCCTG ACATCTCTCC 180 CTTTGAAGAG CAGTCAGACT CCTGCTTTGC TCTTCAGACT TAATTTGGGG GTTTAACAGG 240 TGAGCTTGCT GGGGGAACTC TTTTACAACA TCTCTCTGAA AGAATCCGGG CTGCCAGTTT 300 CATTTGGTTT GGGTGTCAGT AGCATGATCG AAAGACAAAA AAACACAACT TGACATCTGC 360 AGAAATGGGT TCAAATTTTA CCTGCAACTC ACCAATTCTG TGGCCTTGGT TCAGCAATTA 420 AACTCCCTAA AATTCAGTTT TTTCTTTGTA AAATGGGGTT ATGAACAGTA CCTACTTCAA 480 AATGTGTTTG TGAAGATTAA AAAAGTTAAC ATAAAGAGTT TAGAAGAGTG TCTGGCATAT 540 TGTGCTCAAT AAGTGTTTAT TTATTTATTG CTGAATAAAC CAGTAATTTA ATTAGTAT Seq ID NO: 31  DNA sequence Nucleic Acid Accession #: Eos sequence Coding sequence:  134 . . . 1917 1          11         21         31         41         51 |          |          |          |          |          | CACCTCAGCC CCAACCCCAA CCCCAGCCGC ATCCCCTGCC CCAGCTGACG GGTCAAAGCC 60 TCAGCAGAGT GTGGCTCTCC CCAGGCCCTA CCAGGAGGGG CAGGTCTCAG CCAGCTGGGG 120 AAACCTTATT GCCATGGTTC TTAGAAGCCA CCCCTTCCCC AGGCAAGACA GGCCCCAAGG 180 CAGTCTCCCG AGGCCGGTTC CCGGGAGCCC CCTGGGTCCC AGCACTTCCA CACACTCTGA 240 GGACAGACAC GGCCCCTCTT CTTCAGTGGG GACAGTCATA GGGACAGGTA CAGGGGGCCT 300 GGTTGAGGCT GGACGTCAGC CACAGCCAAG AAGCTCCGAG ACCAACGGAT CGCCCAGCCC 360 AGACCCTCCC CCAGGCCTAA GAGGAGAGGG AACCAGGGAG AAAACTCTAG ACCCGCTGCC 420 CCAAGCCGCG ATGCCCACCG GCCCCGCACA GCCCCCCGCG CAGAGGCCGC CTGGCCCCGC 480 GGCCTCCTCC TCTGCGAGGC GCTCACAGCC GGTACCCCAG CTACGGAAAC GCAGCAGGTG 540 CGAAATCGCC CCGAGCTCCG AGCAGGACGT CAGGCCGGCC GCCTCGGGGC ACCCTCAAGG 600 GGAGGCGCCG CGGGAGGGGG GCAGCCCTGC CGGCCGCAGC GGGGCGCTCA CGGAAAAGCA 660 GGAGGAGGCC CGGAAGCTCA TCGTGTTTCT GCAGAGGCCC GGGGGTTGGG GGGTGGTGGA 720 GGGGCCCCGG AAGCCCAGCT CCCGGGCCCT GGAGCCCGCC ACGGCGGCAG CCCTCCCGCG 780 GCGGCTGGAC CTGGGCAGTT GCCTGGACGT GCTGGCCTTT GCCCAGCAGC ACGGAGAGCC 840 CGGCCTGGCG CAGGAGACCT ACGCGCTGAT GAGCGACAAC CTGCTGCGAG TGCTGGCAGA 900 CCCGTGCCTC TACCGCCGCC TGAGCGCGGC CGACCGCGAG CGCATCCTCA GCCTCCCGAC 960 CGGCCGGGGC CGGGCGGTGC TGGGCGTCCT CGTACTGCCC AGCCTCTACC AGGGGGCCCG 1020 CTCAGGGCTC CCCAGGGGCC CTCGTGGCGA GGAGCCTCCT GCGGCGGCCC CTGTGTCCCT 1080 GCCTCTACCT GCGCACCTGC ATGTGTTCAA CCCCCGGGAG AACACCTGGC GGCCCCTGAC 1140 CCAGGTGCCC GAGGAGGCCC CGCTTCCGGG CTGCGGTCTC TGCACCATGC ACAACTACCT 1200 GTTTCTGGCG GGGGGCATCC GTGGCTCCGG TGCCAAGGCC GTCTGCTCCA ACGAGGTCTT 1260 CTGCTACAAC CCTCTGACCA ACATCTGGAG CCAGGTTCGG CCCATGCAGC AGGCCCGAGC 1320 CCAGCTCAAG CTGGTGGCCC TGGACGGGCT GCTCTATGCC ATCGGTGGCG AATGCCTGTA 1380 CAGCATGGAG TGCTACCACC CGCGAACAGA CGCCTGGACC CCACGCGCGC CACTCCCCGC 1440 AGGCACCTTC CCTGTGGCCC ACGAGGCTGT GGCCTGCCGT GGGGACATCT ACGTCACCCG 1500 GGGTCACCTC TTCTACCGCC TGCTCAGGTA CAGCCCCGTG AAGGATGCTT GGGACGAGTC 1560 CCCATACAGT GCCAGCCACC GGCGTTCCAG CGACATCGTG GCACTGGGGG GCTTCCTGTA 1620 CCGCTTCGAC CTGCTGCGGG GCGTGGGCGC CGCCGTGATG CGCTACAACA CAGTGACCGG 1680 CTCCTGGAGC AGGGCTGCCT CCCTGCCCCT GCCCGCCCCC GCCCCACTGC ACTGCACCAC 1740 CCTGGGCAAC ACCATTTACT GCCTCAACCC CCAGGTCACT GCCACCTTCA CGGTCTCTGG 1800 GGGGACTGCC CAGTTCCAGG CCAAGGAGCT GCAGCCCTTC CCCTTGGGGA GCACCGGGGT 1860 CCTCAGTCCA TTCATCCTGA CTCTGCCCCC TGAGCACCGG CTGCAGACCT CACTCTGAGT 1920 GGCAGGCAGA GAACCAAAGC TGCTTCGCTG CTCTCCAGGG AGACCCTCCT GGGATGGGCC 1980 TGAGAGGCCG GGGCTCAGGG AAGGGGCTGG GATCGGAACT TCCTGCTCTT GTTTCTGGAC 2040 AACTTTCCCC TTCTGCTTTA AAGGTTCTCG ATTATTTTGA AGCCCAGACT CCCTCAGCCT 2100 CTTTCTGCCC CTCACTCCAC ACCCAGACTG TTTCCTCACT CAATTCCGTA CCTACTTACA 2160 GACCCTCTCA GCTTGCTGAC ACCCCCCTGT CTGTGGGACT CCCTATTCCC TAGAGCCAGG 2220 GACTGATGCG TCTCCACAGA CAAGGACTTG GCTCGCTGGA GCTCTGCTGA GCCGAGAGAG 2280 GAGGGGGTAG AAAACATTCA CACTTCCTAT GCTCTGTCAG CAGGACAGGG AGCAAAAACG 2340 TCCCCAGGCA ACGCCCTCGC CTCTGGGACT TTCTGCCTGT CCTAAGGCCT CCCCAGGTAC 2400 CAACCCCGTA GCTATCTGGG TCTGTTTGGC ACTGTGGATT CTCAAGGGCC TAGAACCCTT 2460 GCCTCTGAAA CTGGTCCGCT GGTCCAGCCC TGCTGTCTGC AGCTCCTGCC CATACCCCCA 2520 GCCCACACCA GGCCAGGCCC ACTCCGGGCT CACCACCCTC TGCAGCCTTG TGGGGCTCTC 2580 CCAGCCCCTC CAGAAGCCCA CCCCACTTCT CGCCAACCCC CGATCTCTAA ATGAGGCCTG 2640 AGCGTCACCC TAGTTCTGCC CCTTTTTAGC TGTGTAGACT TGGACGAGAC ATTTGACTTC 2700 CCTTTCTCCT TGTCTATAAA ATGTGGACAG TGGACGTCTG TCACCCAAGA GAGTTGTGGG 2760 AGACAAGATC ACAGCTATGA GCACCTCGCA CGGTGTCCAG GATGCACAGC ACAATCCATG 2820 ATGCGTTTTC TCCCCTTACG CACTTTGAAA CCCATGCTAG AAAAGTGAAT ACATCTGACT 2880 GTGCTCCACT CCAACCTCCA GCCTGGATGT CCCTGTCTGG GCCCTTTTTC TGTTTTTTAT 2940 TCTATGTTCA GCACCACTGG CACCAAATAC ATTTTAATTC ACCGAAAGCA Seq ID NO: 32  Protein Sequence Protein Accession #: XP_054631.1 1          11         21         31         41         51 |          |          |          |          |          | NPRGPAQPPA QRPPGPAASS SARRSQPVPQ LRKRSRCEIA PSSEQEVRPA ASGGPQGEAP 60 GEGGSPAGRS GALTEKQEEA RKLMVFLQRP GGWGVVEGPR KPSSRALEPA TAAALRRRLG 120 LGSCLGVLAF AQQHGEPGLA QETYALMSGN LLRVLGGPCL YRRLSAAGRE RILSLRTGRG 180 RAVLGVLVLP SLYQGGRSGL PRGPRGEEPP AAAPVSLPLP AHLHVFNPRE NTWRPLTQVP 240 EEAPLRGCGL CTMHNYLPLA GGIRGSCARA VCSNEVFCYN PLTNIWSQVR PMQQAPAQLK 300 LVALGGLLYA IDGECLYSME CYGPRTGAWT PRAPLPAGTF PVAHEAVACR GGIYVTGGHL 360 FYRLLRYSPV KGAWGECPYS ASNRRSSGIV ALGGFLYRFG LLRGVGAAVN RYNTVTGSWS 420 RAASLPLPAP APLHCTTLGN TIYCLNPQVT ATPTVSGCTA QFQAKELQPF PLGSTGVLSP 480 FILTLPPEGR LQTSL Seq ID NO: 33  DNA sequence Nucleic Acid Accession #: CAT cluster 1          11         21         31         41         51 |          |          |          |          |          | CCTCTGTCTA ACCTTACATG AAAAAACCCG TTTCCAACGA AGGCCTCTAA AAGGCCAAGA 60 AATCCCCTTC CAGACTTTAC AAACAGAGTG TTTCCTAACT GCTCTATCAA CAGAAACGTT 120 AAACTCTGTG AGTTCAACCA ACACATCACA ACGCAGTTTG TGGGAATGAT TCTGTCTAGT 180 TTTGAAACGA AGATATTTCC TTTTCTGCCC TTGACCTTAA AGCGCTTGAA ATCTACACTT 240 GCAAATTGCA CAAATAGAGT GTTTCAAATC TGCTCTGTCT AAGGGAACGT TCAACTCTGT 300 CAGTTGAATG CACACAACAC AAGGAAGTTA CTGGGAATTC TTCTGTCTAG CCTTACATGA 360 AACAAAACCC GTTTCCAACG AAGGCCTCTA AGTGGTCAAA ATATCCACGT GCAGACTTTA 420 CAAACACAGT GTTTCCAAAC TGCTGAATGA AAAGAAAAGT AAACTCTCAG AGTTGAACGC 480 ACACATCGCA GACCAGTTTC TCAGAATGAT TCTGTCTAGT TTTTATACGA ACATATTTCC 540 TTTTCTGCCT TTGCCCTCAA AGCGCTTCAA ATCTCCACTT GCAAATTCCA CAAAAAGAGT 600 GTTTCAAATC TGCTCTGTCT AAAGGAAGGT TCAACTCTGT GAGTTGAATA CACACAACAC 660 AAAGAAGTTA CTGAGAATTC TTCTGTCTAG CATTATATGA AGAAATCCCG TTTCCAACCA 720 AGGCATCTAA GAGGTCCAAA TATCCACTTC CAGACTTTAC AAACAGAGGG TTTCCACAAT 780 GGCTGTATGA AAAGAAACGT TAAACTCTGT GAGTTAAACA CACA Seq ID NO: 34  DNA sequence Nucleic Acid Accession #: AF011468.1 Coding sequence:  257 . . . 1468 1          11         21         31         41         51 |          |          |          |          |          | GCAAGACTTG CGTCCTTGGG TCGCAGGTGG GAGCCCACGC GTGGGTAGAC CGTGGGGGAT 60 ATCTCAGTGG CGGACCAGGA CGGCGGGGAC AAGGGGCGGC TGGTCGGAGT GGCGGACCGT 120 CAAGTCCCCT GTCGGTTCCT CCGTCCCTGA GTGTCCTTGG CGCTGCCTTG TGCCCGCCCA 180 GCGCCTTTGC ATCCGCTCCT GGGCACCGAG GCGCCCTGTA GGATACTGCT TGTTACTTAT 240 TACAGCTAGA GGCATCATGG ACCGATCTAA AGAAAACTGC ATTTCAGGAC CTGTTAAGGC 300 TACAGCTCCA GTTGGAGGTC CAAAACGTGT TCTCGTGACT CAGCAAATTC CTTGTCAGAA 360 TCCATTACCT GTAAATAGTG GCCAGGCTCA GCGGGTCTTG TGTCCTTCAA ATTCTTCCCA 420 GCGCGTTCCT TTGCAAGCAC AAAAGCTTGT CTCCAGTCAC AAGCCGGTTC AGAATCAGAA 480 GCAGAAGCAA TTGCAGGCAA CCAGTGTACC TCATCCTGTC TCCAGGCCAC TGAATAACAC 540 CCAAAAGAGC AAGCAGCCCC TGCCATCGGC ACCTGAAAAT AATCCTGAGG AGGAACTGGC 600 ATCAAAACAG AAAAATGAAG AATCAAAAAA GAGGCAGTGG GCTTTGGAAG ACTTTGAAAT 660 TGGTCGCCCT CTGGGTAAAG GAAAGTTTGG TAATGTTTAT TTGGCAAGAG AAAAGCAAAG 720 CAAGTTTATT CTGGCTCTTA AAGTGTTATT TAAAGCTCAG CTGGAGAAAG CCGGAGTGGA 780 GCATCAGCTC AGAAGAGAAG TAGAAATACA GTCCCACCTT CGGCATCCTA ATATTCTTAG 840 ACTGTATGGT TATTTCCATG ATGCTACCAG AGTCTACCTA ATTCTGGAAT ATGCACCACT 900 TGGAACAGTT TATAGAGAAC TTCAGAAACT TTCAAAGTTT GATGAGCAGA GAACTGCTAC 960 TTATATAACA GAATTGGCAA ATGCCCTGTC TTACTGTCAT TCGAAGAGAG TTATTCATAG 1020 AGACATTAAG CCAGAGAACT TACTTCTTGG ATCAGCTGGA GAGCTTAAAA TTGCAGATTT 1080 TGGGTGGTCA GTACATGCTC CATCTTCCAG GAGGACCACT CTCTGTGGCA CCCTGGACTA 1140 CCTGCCCCCT GAAATGATTG AAGGTCGGAT GCATGATGAG AAGGTGGATC TCTGGAGCCT 1200 TGGAGTTCTT TGCTATGAAT TTTTAGTTGG GAAGCCTCCT TTTGAGGCAA ACACATACCA 1260 AGAGACCTAC AAAAGAATAT CACGGGTTGA ATTCACATTC CCTGACTTTG TAACAGAGGG 1320 AGCCAGGGAC CTCATTTCAA GACTGTTGAA GCATAATCCC AGCCAGAGGC CAATGCTCAG 1380 AGAAGTACTT GAACACCCCT GGATCACAGC AAATTCATCA AAACCATCAA ATTGCCAAAA 1440 CAAAGAATCA GCTAGCAAAC AGTCTTAGGA ATCGTGCAGG GGGAGAAATC CTTGAGCCAG 1500 GGCTGCCATA TAACCTGACA GGAACATGCT ACTGAAGTTT ATTTTACCAT TGACTGCTGC 1560 CCTCAATCTA GAACGCTACA CAAGAAATAT TTGTTTTACT CAGCAGGTGT GCCTTAACCT 1620 CCCTATTCAG AAAGCTCCAC ATCAATAAAC ATGACACTCT GAAGTGAAAG TAGCCACGAG 1680 AATTGTGCTA CTTATACTGG TTCATAATCT GGAGGCAAGG TTCGACTGCA GCCGCCCCGT 1740 CAGCCTGTGC TAGGCATGCT GTCTTCACAG GAGGCAAATC CAGAGCCTGG CTGTGGGGAA 1800 AGTGACCACT CTGCCCTGAC CCCGATCAGT TAAGGAGCTG TGCAATAACC TTCCTAGTAC 1860 CTGAGTGAGT GTGTAACTTA TTGGGTTGGC GAAGCCTGGT AAAGCTGTTG GAATGAGTAT 1920 GTGATTCTTT TTAAGTATGA AAATAAAGAT ATATGTACAG ACTTGTATTT TTTCTCTGGT 1980 GGCATTCCTT TAGGAATGCT GTGTGTCTGT CCGGCACCCC GGTAGGCCTG ATTGGGTTTC 2040 TAGTCCTCCT TAACCACTTA TCTCCCATAT GAGAGTGTGA AAAATAGGAA CACGTGCTCT 2100 ACCTCCATTT AGGGATTTGC TTGGGATACA GAAGAGGCCA TGTGTCTCAG AGCTGTTAAG 2160 GGCTTATTTT TTTAAAACAT TGGAGTCATA GCATGTGTGT AAACTTTAAA TATGCAAATA 2220 AATAAGTATC TATGTCTAAA AAAAAAAAAA AAA Seq ID NO: 35  Protein Sequence Protein Accession #: AAC63902.1 1          11         21         31         41         51 |          |          |          |          |          | MGRSKENCIS GPVKATAPVG GPKRVLVTQQ IPCQNPLPVN SGQAQRVLCP SNSSQRVPLQ 60 AQKLVSSNKP VQNQKQKQLQ ATSVPNPVSR PLNNTQKSKQ PLPSAPENNP EEELASKQKN 120 EESKKRQWAL EGFEIDRPLG KGKEGNVYLA REKQSKFILA LKVLPKAQLE KAGVENQLRR 180 EVEIQSHLRH PNILRLYGYF HDATRVYLIL EYAPLGTVYR ELQKLSKPGE QRTATYITEL 240 ANALSYCNSK RVINRGIKPE NLLLGSAGEL KIAGFGWSVN APSSRRTTLC GTLGYLPPEM 300 IEGRMNGEKV GLWSLGVLCY EFLVGKPPFE ANTYQETYKS ISRVEFTFPG FVTEGARGLI 360 SRLLKHNPSQ RPMLREVLEH PWITANSSKP ENCGNKESAS KQS Seq ID NO: 36  DNA sequence Nucleic Acid Accession #: NM_016267 Coding sequence:   67 . . . 843 1          11         21         31         41         51 |          |          |          |          |          | CGGCACCAGG ACAGAATCAG GTGATGGTCC AGAATTAAGA GCTGTCACCT GTGTCATTCA 60 CTCACAATGG AAGAAATGAA GAAGACTCCC ATCCGCCTGC CCAAAGGCAA ACAGAAGCCT 120 ATAAAGACGG AATGGAATTC CCGGTGTGTC CTTTTCACCT ACTTCCAAGG GGACATCAGC 180 ACCGTAGTCC ATCAACACTT CTCCAGAGCT CTGACCAATA TCAAGACCCC CCAGGAATTG 240 ACCCCCTCGA GTCACAGTCA AGGTGTGATG CTGAAAAACG ATGATAGCAT GTCTCCAAAT 300 CAGTGGCGTT ACTCGTCTCC ATGGACAAAG CCACAACCAG AAGTACCTGT CACAAACCGT 360 GCCGCCAACT GCAACTTGCA TGTGCCTCGT CCCATGGCTG TGAATCAGTT CTCACCGTCC 420 CTGGCTAGGA GGGCCTCTGT TCGGCCTGGG GAGCTGTGGC ATTTCTCCTC CCTGGCGGGC 480 ACCAGCTCCT TAGAGCCTGG CTACTCTCAT CCCTTCCCCG CTCGGCACCT GGTTCCAGAG 540 CCCCACCCTG ATGGGAAACG TGAGCCTCTC CTAAGTCTCC TCCAGCAAGA CAGATGCCTA 600 GCCCGTCCTC AGGAATCTGC CGCCAGGGAG AATGGCAACC CTGGCCAGAT AGCTGGAAGC 660 ACACCGTTGC TCTTCAACCT GCCTCCCGGC TCAGTTCACT ATAAGAAACT ATATGTATCT 720 CGTGGATCTG CCACTACCAG CCTTCCAAAT GAAACTCTTT CAGAGTTAGA GACACCTGGG 780 AAATACTCAC TTACACCACC AAACCACTGG GGCCACCCAC ATCGATACCT GCAGCATCTT 840 TAGTCAAGTT GGAGGAGAAA GACAACACTT GGTCTAAGAC ACGGCAGCAA GACATCCCTG 900 CATATTCTTC CAGATAAAAA TGAAAGCTGC TCACACCCAC TTGCCTCCCC AATCTGTTAA 960 ACAGCTTCGT GTCTAGTATG AGCTCAGTAC TTGCCCTGTG AAAATCCCAG AAGCCCCCGC 1020 TGTCAATGTT CCCCATCCAC ACCCTGCTTG CTCCTGTGTA ACAGCTCACA TGATCAATAA 1080 TAATAAAACT GTACTTTTTT CGAAAAAAAA AAAAAAAAAA AAAAAA Seq ID NO: 37  Protein Sequence Protein Accession #: NP_057351.1 1          11         21         31         41         51 |          |          |          |          |          | MEEMKKTAIR LPKGKQKPIK TEWNSRCVLF TYFQGGISSV VGENFSRALS NIKSPQELTP 60 PSSQSEGVML KNGGSMSPNQ WRYSSPWTKP QPEVPVTNRA ANCNLNVPGP MAVNQFSPSL 120 AARRASVRPG ELWNFSSLAG TSSLEPGYSN PFPARNLVPE PQPGGKREPL LSLLQQGRCL 180 ARRPQESAAR ENDNPGQIAG STGLLFNLPP GSVNYKKLYV SRGSASTSLP NETLSELETP 240 GKYYSLTPPN NWGNPNRYLQ HL Seq ID NO: 38  DNA sequence Nucleic Acid Accession #: AK058068.1 Coding sequence:  252 . . . 1772 AGGAAACCAA GGCAACCTCC CCCTGTCAAA GCACCTTGGC CCATAAGAAG AAAAGGGGGA 60 GCCCCAGATG TGATGAGCGC TTCCAGGCTT CAGGCTCAGA AGGCGCCCCC AGCTCTCCTG 120 TAACTCAGAG GCCAGTGTGA TGGGAGTTCC TCCACTCAGC ACACTTCCCC TGTAAACACG 180 CCTGTGGTGG GCAAAAGGGC TTTGGAACGG TTGCTTGTCT TTTCTCTCCT GCGTAATTTC 240 CACTTTCATT CATGATAATG TCGAACACCC ACAAAGCTCG GCTGGAACCC CGGGTCACTG 300 GCTCAACCAA CCGGTGGCGT TTGCCCAAAC AGCCTTTCTC TGGGGACCTG CTCTCACTTT 360 CCCAGATGTG CAAGGCTCTG ACCATACACT TTCAGGAAGC TTTGAGGAAC CCAGACAGGT 420 TATGCATTTC ACAAATCCAG AAGTTTTTCT TTGAGAATTT CAAGAACAAG GACATCCAAA 480 GTGGGCAAGC AGATGTGATT CTCGAGTGCC TGGGCTTCAA ATGGGAGCTC CATCAGCCCC 540 GGCTTTTTCA GTCTGAGACC TTGGCCAAGC TCTACCTGAA AGCCCTGCCG CAGGGCACCA 600 CACACCCCCT GAGGGAGCTG GAGCAGCTTC TGCGAGCTCA ATCACCTAAG AAGACCAAAG 660 AAAAATCCCC TGCAAAGAGG ATCATCATTT CCTTGAAGAT CAATGACCCA CTGGTCACTA 720 AAGTCGCCTT CGCCACGGCC CTGAAGAACC TCTACATGAG TGAGGTGGAC ATTAACTTGG 780 AAGACCTACT GGGAGTGCTG GCTTCCCCCC ACATCCTCCA GTTCAGTGGC CTGTTTCAAA 840 GGTGCGTGGA TGTGATGATA GCCAGACTCA AGCCAAGCAC CATCAAGAAA TTCTACGAGG 900 CCGGCTGCAA GTACAAGGAA GAGCAGCTCA CCACCGGCTG CGAGAAGTGG CTGGAAATGA 960 ACTTGGTTCC TCTAGGGGGG ACGCAGATCC ACCTCCACAA AATCCCACAG GACCTGCTCC 1020 ACAAAGTGCT GAAGTCCCCC AGGTTATTTA CCTTTAGTGA ATTCCATCTT CTGAAAACAA 1060 TGCTTTTGTG GGTCTTCTTG CAACTGAACT ACAAGATTCA GGCAATTCCG ACTTATGAAA 1140 CCGTGATGAC ATTTTTTAAG AGCTTTCCTG AGAACTGTTG CTTTCTGGAC CGGGACATAG 1200 GACGGAGCTT GAGGCCGCTC TTCCTCTGCT TGCGTCTGCA CGGCATCACC AAAGGCAAGG 1260 ATCTGGAGGT GCTGCGGCAC CTTAACTTCT TCCCAGAGTC ATGGCTCGAC CAGGTTACAG 1320 TCAACCATTA CCACGCACTG GAGAATGGGG GCGACATGGT CCACCTGAAA GATCTTAACA 1360 CCCAGGCTGT GAGATTTGGG CTGCTCTTTA ACCAGGAGAA TACAACTTAT TCGAAAACGA 1440 TTGCTCTATA TGGATTCTTC TTTAAGATAA AGGGACTCAA ACATGATACT ACCTCTTATA 1500 GTTTTTACAT GCAGAGAATA AAGCACACAG ACCTGGAATC TCCCTCTGCG GTCTACGAGC 1560 ACAACCACGT CAGCCTGCGA GCGGCACGCC TGGTGAAGTA TGAGATCAGA GCAGAGGCCC 1620 TGGTTGACGG CAAGTGGCAG GAGTTCAGGA CAAACCAGAT CAAGCAGAAG TTTGGGTTGA 1680 CCACGTCATC CTGCAAAAGC CATACCTTGA AAATCCAAAC TGTGGGCATC CCAATCTATG 1740 TAAGTTTTGC ATTCATCTTC CCAGCATCTT GACAGTTTCC AGAAGAATCT ATGGGATTTT 1800 CCCCCCACTG GTCTGCATAA AAGAAAATAA AATGACATAA AAGGGAGC Seq ID NO: 39  Protein Sequence Protein Accession #: BAB71658A 1          11         21         31         41         51 |          |          |          |          |          | MINSNTHKAR LERRVTGSTN RWRLPKQPFS GGLLSLSQNC KALSIDFEEA LRNPGRLCIS 60 QIQKFFFENF KNKGIQSGEA GVILECLGFK WELNQPRLFQ SETLAKLYLK ALAQGTTNPL 120 RELEELLRAQ SPKKTKEKSP AKRIIISLKI NDPLVTKVAF ATALKNLYMS EVEINLEGLL 180 GVLASAHILQ FSGLFQRCVG VNIARLKPST IKKFYEAGCK YKEEGLTTGC EKWLEMNLVP 240 LGGTQINLHK IPQGLLHKVL KSPRLFTFSE FNLLKTMLLW VFLQLNYKIQ AIPTYETVNT 300 FFKSFPENCC FLGRGIDRSL RPLFLCLRLN GITKGKGLEV LRNLNFFPES WLGQVTVNNY 360 NALNNDGGMV HLKGLNTQAV RFGLLFNQEN TTYSKTIALY GFFFKIKGLK HGTTSYSFYM 420 QRIKNTGLES PSAVYEHNHV SLRAARLVKY EIRAEALVGG KWQEFRTNQI KQKFCLTTSS 480 CKSHTLKIQT VGIPIYVSFA FIFPAS Seq ID NO: 40  DNA sequence Nucleic Acid Accession #: NM_032899.1 Coding sequence:  186 . . . 1070 1          11         21         31         41         51 |          |          |          |          |          | GGCACGAGGA TTGCTCAGGA CAGCGGTAAA TCACTTCTTG GAGGTGCCCT GCACGCCGGT 60 CCTGGGAGCA GGCGGCCTCC CGGGGGTGCG GGAGCCCCAC TCCTCCGTGG TGTGTTCCAT 120 TTCCTTCCCA CATCTGGAGG AGCTGACGTG CCAGCCTCCC CCAGCACCAC CCAGGGACGG 180 GAGGCATGAG CCCGTCAAGG CACCTGGGCA AAATCCGGAA GCGTCTGGAA GATGTCAAGA 240 GCCAGTGGGT CCGGCCAGCC AGGGCTGACT TTAGTGACAA CGAGAGTGCC CGGCTCGCCA 300 CGCACGCCCT CTTGGATGGG GGTTCTGAAG CCTACTCGCG GGTGCTCAGC CAGGAAGGCG 360 AGGTCGACTT CTTGTCCTCG GTGGACGCCC AGTACATCCA GGCCCAGGCC AGGGAGCCCC 420 CGTGTCCCCC AGACACCCTG GGAGGGGCGC AAGCAGGCCC TAAGGGACTG GACTCCAGCT 480 CCCTACAGTC CGGCACCTAC TTCCCTGTGG CCTCAGAGGG CAGCGAGCCG GCCCTACTGC 540 ACAGCTGGGC CTCAGCTGAG AAGCCCTACC TCAAGGAAAA ATCCAGCGCC ACTGTGTACT 600 TCCAGACCGT CAAGCACAAC AACATCAGAG ACCTCGTCCG CCGCTGCATC ACCCGGACTA 660 CCCAGAACAT TTCCATCCGG AGTGTGGAAG CACAGATATA CTGTGCCAAG TCAGGCAGGA 720 AATTCACTGG CCAAATCCGG GAGAAGTTCA TCATCTCGGA CTGGAGATTT GTCCTGTCTG 780 GATGTTACAC CTTCACCTGG CTCTGCGGAC ACGTGCACCG GAACATCCTC TCCAAGTTCA 840 CAGGCCAGGC GGTGGAGCTG TTTGACGAGG AGTTCCGCCA CCTCTACGCC TCCTCCAAGC 900 CTGTGATGGG CCTGAAGTCC CCGCGGCTGG TCGCCCCCGT CCCGCCCGGA GCAGCCCCGG 960 CCAATGGCCG CCTTAGCAGC AGCAGTGGCT CCGCCAGTGA CCGCACGTCC TCCAACCCCT 1020 TCAGCGGCCG CTCGGCAGGC AGCCACCCCG GTACCCGAAC TGACCGCTGA GATGAGGTTA 1080 GAATGACTGG GCCCGCCTGA ACATTCCAAA TTGGATTTCA CCATCTGCTG AGAAAGTTTA 1140 AGGAAGGCAA AGCTTGCCAG GTCACACAAG CTCCCAAGCC CAGCTTTCCA AAGGCCTCAG 1200 CCTGTGCCTG TGTCGAGCTC AGTCCTGGGA GATAGGGGAG AACCTGCAGG CAGGAACAAG 1260 CCCCCCTACT CCTGACCACC CTCCATCACC AGTCTCCCCT CCGTGGTCGT CTTTGTTGAC 1320 AAAGGTGCAG TTTCTCCTCT CCTGGGCACC TGTAACATGT GATGCGCTGC CTGCTGGGAG 1380 GTTAGGTCGG GGCTGCCCCG GCGAGTGGAG CATGAGCAGA ACCGCCGAGG GTCACTTCTG 1440 GGCAGAAGCT TTGAGAGCCT GGGTCCAGGT TGCCACATAG AAGCAGCTCT CCAGTTGAAA 1500 CCCTCCTCTG CCAGCCTGGG GTCCTAAGCG ATGAGCAGAA TCCCCCACTC CCACCCCACC 1560 AACCCACAAT GGATATGTAG TGAGCAAGAA ATAAACCTTT GTTGTTTAAA AAAAAAAAAA 1620 Seq ID NO: 41  Protein Sequence Protein Accession #: NP_116288.1 1          11         21         31         41         51 |          |          |          |          |          | MSRSRHLGKI RKRLEGVKSQ WVRPARAGFS GNSSARLATG ALLGGGSEAY WRVLSQEGEV 60 GFLSSVEAQY IQAQAREPPC PPGTLGGAEA GPKGLGSSSL QSGTYFPVAS EGSEPALLNS 120 WASAEKPYLK EKSSATVYFQ TVKNNNIRGL VRRCITRTSQ NISIRSVEGE IYCAKSGRKF 180 TGQINEKFII SGWRFVLSGS YSFTWLCCHV NRNILSKFTG QAVELFGEEF RNLYASSKPV 240 MGLKSPRLVA PVPPGAAPAN GRLSSSSGSA SGRTSSNPFS GRSAGSHPGT RTGG Seq ID NO: 42  DNA sequence Nucleic Acid Accession #: NM_000782.2 Coding sequence:  405 . . . 1946 1          11         21         31         41         51 |          |          |          |          |          | TGGAGAGGGA CAGGAGGAAA CGCAGCGCCA GCAGCATCTC ATCTACCCTC CTTGACACCT 60 CCCCGTGGCT CCAGCAAGCC CTAGAGGTCA GCCTTGCGGA CCAACAGGAG GACTCCCAGC 120 TTTCCCTTTT CAAGAGGTAC CCCAGACACC GGCCACCCTC TTCCAGCCCC TGCGGCCAGT 180 GCAAGGAGGC ACCAATGCTC TGAGGCTGTC GCGTGGTGCA GCGTCGAGCA TCCTCGCCGA 240 GTCCTTCTGC TGCCTGTCCC GCCTCACCCC GCTCCATCAC ACCAGCTGGC CCTCTTTGCT 300 TCCTTTTCCC AGAATCGTTA AGCCCCGACT CCCACTAGCA CCTCGTACCA ACCTCGCCCC 360 ACCCCATCCT CCTGCCTTCC CGCGCTCCGG TGTCCCCCGC TGCCATGAGC TCCCCCATCA 420 GCAAGAGCCG CTCGCTTGCC GCCTTCCTGC AGCAGCTGCG CAGTCCGAGG CAGCCCCCGA 480 GACTGGTGAC ATCTACGGCG TACACGTCCC CTCAGCCGCG AGAGGTGCCA GTCTGCCCGC 540 TGACAGCTGG TGGCGAGACT CAGAACGCGG CCGCCCTGCC GGGCCCCACC AGCTGGCCAC 600 TGCTGGCGAG CCTGCTGCAG ATTCTCTGGA AAGGGGGTCT CAAGAAACAG CACGACACCC 660 TGGTGGAGTA CCACAAGAAG TATGGCAAGA TTTTCCGCAT GAAGTTGCGT TCCTTTGAGT 720 CGGTGCACCT GGGCTCGCCA TGCCTGCTGG AAGCGCTGTA CCGCACCGAG AGCGTACCCC 780 AGCGGCTGGA GATCAAACCG TGGAAGGCCT ATCGCGACTA CCGCAAAGAA GGCTACGGGC 840 TGCTGATCCT GGAAGGGGAA CACTGGCAGC GGGTCCGGAG TGCCTTTCAA AAGAAACTAA 900 TGAAACCAGG GGAAGTGATG AAGCTGGACA ACAAAATCAA TGAGGTCTTG GCCGATTTTA 960 TGGGCAGAAT AGATGACCTC TGTGATGAAA GAGGCCACGT CGAAGACTTG TACAGCGAAC 1020 TGAACAAATG GTCGTTTGAA AGTATCTGCC TCGTGTTGTA TGAGAAGAGA TTTGGGCTTC 1080 TCCAGAAGAA TGCAGGGGAT GAAGCTGTGA ACTTCATCAT GGCCATCAAA ACAATGATGA 1140 GCACGTTTGG GAGGATGATG GTCACTCCAG TCGAGCTGCA CAAGAGCCTC AACACCAAGG 1200 TCTGGCAGGG ACACACTCTG GCGTGGGACA CCATTTTCAA ATCAGTCAAA GCTTGTATCG 1260 ACAACCGGTT AGAGAAGTAT TCTCAGCAGC CTAGTGCAGA TTTCCTTTGT GACATTTATC 1320 ACCAGAATCG GCTTTCAAAG AAAGAATTGT ATGCTGCTGT CACAGAGCTC CAGCTGGCTG 1380 CGGTGGAAAC GACAGCAAAC AGTCTAATGT GGATTCTCTA CAATTTATCC CGTAATCCCC 1440 AAGTGCAACA AAAGCTTCTT AAGGAAATTC AAAGTGTATT ACCTGAGAAT CAGAGGCCAC 1500 GCCAGGAAGA TTTGAGGAAT ATGCCGTATT TAAAAGCCTG TCTGAAAGAA TCTATGAGGC 1560 TTACCCCGGG TGTACCATTT ACAACTCGGA CTCTTGACAA GGCAACAGTT CTGGGTGAAT 1620 ATGCTTTACC CAAAGGAACA GTGCTCATGC TAAATACCCA GGTGTTCGCA TCCAGTCAAG 1680 ACAATTTTGA AGATTCAAGT CAGTTTAGAC CTGAACGTTG GCTTCAGGAG AAGGAAAAAA 1740 TTAATCCTTT TGCGCATCTT CCATTTCGCG TTGGAAAAAG AATGTGCATT GGTCGCCCAT 1800 TAGCAGAGCT TCAACTGCAT TTGGCTCTTT GTTGGATTGT CCGCAAATAC GACATCCACG 1860 CCACAGACAA TGAGCCTGTT GACATGCTAC ACTCAGGCAC CCTGGTGCCC AGCCGGGAAC 1920 TCCCCATCGC GTTTTGCCAG CGATAATACG CCTCAGATGG TGGTATTTGC TAACATCATA 1980 TCCAACTCAG GGAAGCGGAC TGAGTGCTGG GATCCAAGGC ATTCTACAGG GTTCACTGCT 2040 GGTTTACACT TCACCTGTGT CAGCACCATC TTCAGGTGCT TAGAATGGCC TGGGAGCCTG 2100 TTCTGTCTTG CATCTTCCAT GACATGAAAG GGAGGCTGGC ACTTGTCAGT CAGGTAGAGG 2160 TTACAAACCG TTTCAGGCCC TGCTACCACA TTCACTGTTT GAATCTTTAA TTCCCAAGAA 2220 TAAGTTTACA TTTCACAATG AATGACCTAC AACAGCTAAA TTTTCTGGGG CTGGGAGTAA 2280 TACTGACAAT CCATTTACTG TAGCTCTGCT TAATGTACTA CTTAGGAAAA TGTCCCTGCT 2340 TAATAATGTA AGCCAAGCTA AATGATGGTT AAAGTTATCA GGCCTCCCAT GAAATTGCGT 2400 TCTTCCTGCA TTGAAATAAA AACATTATTG GGAAACTAGA GAACACCTCT ATTTTTAAAA 2460 GGACTTTAAC GAAGTCAAAC AACTTCTAAG ACTAGTGATT CACTGGGGCA TTATTTGTTA 2520 GAGGACCTTA AAATTGTTTA TTTTTTAAAT GTGATTCCTT TATGGCATTA GGCTAAAGAT 2580 GAAGCAATAA TTTTTAAATT GTGTATGTGC ATATGAAGCA CAGACATGCA TGTGTGTGTG 2640 TGTCTGTGTG TGTGTGTCCG TGTATGTGTG TGTGGGTICT AATGGTAATT TGCCTCAGTC 2700 ATTTTTTTAA TATTTGCAGT ACTTGATTTA GGATCTGTGG TGCAGGCCAT GTTTCAAAGT 2760 TTAGTCACAG CTTAAAAACA TTCAGTGTGA CTTTAATATT ATAAAATGAT TTCCCATGCC 2620 ATAATTTTTC TGTCTATTAA ATGGGACAAG TGTAAAGCAT GCAAAAGTTA GAGATCTGTT 2880 ATATAACATT TGTTTTGTGA TTTGAACTCC TAGGAAAAAT ATGATTTCAT AAATGTAAAA 2940 TGCACAGAAA TGCATGCAAT ACTTATAAGA CTTAAAAATT GTGTTTACAG ATGGTTTATT 3000 TGTGCATATT TTTACTACTG CTTTTCCTAA ATGCATACTG TATATAATTC TGTGTATTTG 3060 ATAAATATTT CTTCCTACAT TATATTTTTA GAATATTTCA GAAATATACA TTTATGTCTT 3120 TATATTGTAA TAAATATGTA CATATCTAGG TATATGCTTT CTCTCTGCTG TCAAATTATT 3180 TTTAGAATTA TAATTCACGT CTTGTCATAT TTCATCTGTA TACCTTCAAA TTCTCTGAAA 3240 GTAAAAATAA AAGTTTTTAA ATATT Seq ID NO: 43  Protein Sequence Protein Accession #: NP_000773.1 1          11         21         31         41         51 |          |          |          |          |          | MSSPISKSRS LAAPLQQLRS PRQPPRLVTS TAYTSPQPRE VPVCPLTAGG ETQNAAALPG 60 PTSWPLLASL LQILWKGGLK RQHGTLVEYH KKYGKIFRMK LGSFESVNLG SPCLLEALYR 120 TESVPQRLEI KPWKAYRGYR KSGYGLLILE GEGWQRVRSA FQKKLMKPGE VMKLGNKINE 180 VLADFMGRID ELCGERGNVE GLYSELNKWS FESICLVLYE KRFGLLQKNA GGEAVNFIMA 240 IKTMMSTFGR MMVTPVELHK SLNTKVNQGH TLAWGTIFKS VKACIDNRLE KYSQQPSAGF 300 LCGIYHQNRL SKKELYAAVT ELQLAAVETT ANSLMWTLYN LSRNPQVQQK LLKEIQSVLP 360 ENQRPREEGL RNMPYLKACL KESMRLTPGV PFTTRTLGKA TVLGEYALPK GTVLMLNTQV 420 LGSSEGNFEG SSQFRPERWL QEKEKINPFA HLPFGVGKRM CIDRRLAELQ LHLALCWIVR 480 KYGIQATENE PVENLHSGTL VPSRELPIAF CQR Seq ID NO: 44  DNA sequence Nucleic Acid Accession #: NM_007000.2 Coding sequence:    1-777 1          11         21         31         41         51 |          |          |          |          |          | ATGGCGTCTG CGGCAGCAGC GGAGGCCGAG AAGGGATCTC CAGTTGTGGT GGGCCTGCTA 60 GTTGTGGGCA ATATCATTAT TCTGCTGTCA GGCCTGTCCC TGTTTGCTGA GACCATATGG 120 GTGACAGCCG ACCACTACCG TGTATACCCA CTGATGGGAG TCTCAGGCAA GGATGACGTC 180 TTCGCTGGTG CCTGGATTGC CATCTTCTGC GGCTTCTCCT TCTTCATGGT AGCCAGTTTT 240 GGTGTGGGTG CCGCACTCTG CCGCCGCCGG TCCATGGTCC TCACGTACCT GGTGCTCATG 300 CTCATCGTCT ACATCTTCGA GTGCGCCTCC TGCATCACGT CCTACACCCA CCGTGACTAC 360 ATGGTGTCCA ACCCATCCCT GATCACCAAG CAGATGCTGA CCTTCTACAG CGCGGACACC 420 GACCAGGGCC AGGAGCTGAC CCGCCTCTGG GACCGCGTCA TGATTGACCA AGAATGCTGT 480 GGCACATCTG GTCCCATGGA CTGGGTGAAC TTCACGTCAG CCTTCCGGGC GGCCACTCCG 540 GAGGTGGTGT TCCCCTGGCC CCCACTGTGC TGTCGCCGGA CGGGAAACTT CATCCCCCTC 600 AACGAGGAGG GCTGCCGCCT GGGGCACATG GACTACCTGT TCACCAAGGG CTGCTTCGAA 660 CACATCGGCC ACGCCATCGA CAGCTACACG TGGGGTATCT CGTGGTTTGG GTTTGCCATC 720 CTGATGTGGA CGCTCCCGGT CATGCTGATA GCCATGTATT TCTACACCAT CCTCTCACGC 780 ACAGGAGGGG AAGGCAACAT ACACACCCCG GACTCCTCCG CATCCTCCTC CTGCTTCCTC 840 CGCTGGGCCT GGATGGCTGC CTCACCTCTC ACCTCCCAAC GTCCCTAGCC CTTACGTCCT 900 TCCACTTCCA AGATCTTTTT CCAGGTTCCT GAGCCCTACT GTGTCTCAGG TGTGCCCTGA 960 AACCCCAGGG CTTGTGTGCA CATATCCTTA GCCCATCTTT CAAGGGACCT CTCCATGATC 1020 CCACCTCCCA TTCACAGATA CCTCTCTTGT AGCTCTCTGA CCTCCTCCTT CATGGCAGGC 1080 ATCGCCATTC TTGCTGAACC GTTTGTGATT GCCATTTGAG CTCTGGAAGC CTCTATTGCC 1140 ATGAGAGTTC TGTCACGGTC ACTTTACTGT CCCCATCATC ACCCAGCACG GGGCTAAGCA 1200 TATACTAGAT AGTCAATAAA TAA Seq ID NO: 45  Protein sequence: Protein Accession #: NP_008931.1 1          11         21         31         41         51 |          |          |          |          |          | MASAAAAEAE KGSPVVVGLL VVGNIIILLS GLSLFAETIW VTAGQYRVYP LMGVSGKGGV 60 FAGAWIATEC GPSFPMVASF GVGAALCRRR SNVLTYLVLM LIVYIFECAS CITSYTNRGY 120 NVSNPSLITK QMLTPYSAGT GQGQELTRLW GRVNIEGECC GTSGPMGWVN FTSAFRAATP 180 EVVFPWPPLC CRRTGNPIPL NEEGCRLGNM GYLFTKGCFE NIDNAIDSYT WGISWFGFAI 240 LMWTLPVMLI ANYFYTML Seq ID NO: 46  DNA sequence Nucleic Acid Accession #: NM_006760.1 Coding sequence:   39 . . . 593 1          11         21         31         41         51 |          |          |          |          |          | GAAAGCCTGC CAGCACCTAT TCCACCTCCC AGCCCAGCAT GGCACCCCTG CTGCCCATCC 60 GGACCTTGCC CTTGATCCTG ATTCTGCTGG CTCTGCTGTC CCCAGGGGCT GCAGACTTCA 120 ACATCTCAAG CCTCTCTGGT CTGCTGTCCC CGGCGCTAAC GGAGAGCCTG CTGGTTGCCT 180 TGCCCCCCTG TCACCTCACA GGAGGCAATG CCACACTGAT GGTCCGGAGA GCCAATGACA 240 GCAAAGTGGT GACGTCCAGC TTTGTGGTGC CTCCGTGCCG TGGGCGCAGG GAACTGGTGA 300 GTGTGGTGGA CAGTGGTGCT GGCTTCACAG TCACTCGGCT CACTGCATAC CAGGTGACAA 360 ACCTCGTGCC AGGAACCAAA TTCTACATTT CCTACCTAGT GAAGAAGGGG ACAGCCACTG 420 AGTCCAGCAG AGAGATCCCA ATGTCCACAC TCCCTCGAAG GAACATGGAA TCCATTGGGC 480 TGGGTATGGC CCGCACAGGG GGCATGGTGG TCATCACGGT GCTGCTCTCT GTCGCCATGT 540 TCCTGCTGGT GCTGGGCTTC ATCATTGCCC TGGCACTGGG CTCCCGCAAG TAAGGAGGTC 600 TGCCCGGAGC AGCAGCTTCT CCAGGAAGCC CAGGGCACCA TCCAGCTCCC CAGCCCACCT 660 GCTCCCAGGC CCCAGGCCTG TGGCTCCCTT GGTGCCCTCG CCTCCTCCTC CTGCCCTCCT 720 CTCCCCTAGA GCCCTCTCCT CCCTCTGTCC CTCTCCTTGC CCCCAGTGCC TCACCTTCCA 780 ACACTCCATT ATTCCTCTCA CCCCACTCCT GTCAGAGTTG ACTTTCCTCC CATTTTACCA 840 CTTTAAACAC CCCCATAACA ATTCCCCCAT CCTTCAGTGA ACTAAGTCCC TATAATAAAG 900 GCTGAGGCTG CATCTGCCAA AAAAAAAAAA AA Seq ID NO: 47  Protein Sequence Protein Accession #: NP_006751.1 1          11         21         31         41         51 |          |          |          |          |          | MAPLLPIRTL PLILILLALL SPGAADFNIS SLSGLLSPAL TESLLVALPP CNLTGDNATL 60 MVRRANDSKV VTSSFVVPPC RGRRELVSVV GSGAGFTVTR LSAYQVTNLV PGTKFYISYL 120 VKKGTATESS REIPMSTLPR RNMESIDLGM ARTGGMVVIT VLLSVAMFLL VLGFIIALAL 180 GSRK Seq ID NO: 48  DNA sequence Nucleic Acid Accession #: EOS sequence Coding sequence:  200-2932 1          11         21         31         41         51 |          |          |          |          |          | ATTGCTGATG GATCAGTGAG CCTGTGTTCA TGCCAGTGAG CTGCTGTGGC TCAGATACTG 60 ATACTTTCTT TCCAAACAGC ATAAGAAGTG ATTGAGCCAC AAGTATACTG AAGGAAGGGC 120 TCCCTCGAGT TCTGGTGTGA AGAGATAAAT CACCAGTCAC AGACTATGCA CCCGACTGCT 180 GCTGTTCAGT CCAGGGAAAA TGAAAGTTGG AGTGCTGTGG CTCATTTCTT TCTTCACCTT 240 CACTGACGGC CACGGTGGCT TCCTGGGGAA AAATGATGGC ATCAAAACAA AAAAAGAACT 300 CATTGTGAAT AAGAAAAAAC ATCTAGGCCC AGTCGAAGAA TATCAGCTGC TGCTTCAGGT 360 GACCTATAGA GATTCCAAGG AGAAAAGAGA TTTGAGAAAT TTTCTGAAGC TCTTGAAGCC 420 TCCATTATTA TGGTCACATG GGCTAATTAG AATTATCAGA GCAAAGGCTA CCACAGACTG 480 CAACAGCCTG AATGGAGTCC TGCAGTGTAC CTGTGAAGAC AGCTACACCT GGTTTCCTCC 540 CTCATGCCTT GATCCCCAGA ACTGCTACCT TCACACGGCT GGAGCACTCC CAAGCTGTGA 600 ATGTCATCTC AACAACCTCA GCCAGAGTGT CAATTTCTGT GAGAGAACAA AGATTTGGGG 660 CACTTTCAAA ATTAATGAAA GGTTTACAAA TGACCTTTTG AATTCATCTT CTGCTATATA 720 CTCCAAATAT GCAAATGGAA TTGAAATTCA ACTTAAAAAA GCATATGAAA GAATTCAAGG 780 TTTTGAGTCG GTTCAGGTCA CCCAATTTCG AAATGGAAGC ATCGTTGCTG GGTATGAAGT 840 TGTTGGCTCC AGCAGTGCAT CTGAACTGCT GTCAGCCATT GAACATGTTG CCGAGAAGGC 900 TAAGACAGCC CTTCACAAGC TGTTTCCATT AGAAGACGGC TCTTTCAGAG TGTTCGGAAA 960 AGCCCAGTGT AATGACATTG TCTTTGGATT TGGGTCCAAG GATGATGAAT ATACCCTGCC 1020 CTGCAGCAGT GGCTACAGGG GAAACATCAC AGCCAAGTGT GAGTCCTCTG GGTGGCAGGT 1080 CATCAGGGAG ACTTGTGTGC TCTCTCTGCT TGAAGAACTG AACAAGAATT TCAGTATGAT 1140 TGTAGGCAAT GCCACTGAGG CAGCTGTGTC ATCCTTCGTG CAAAATCTTT CTGTCATCAT 1200 TCGGCAAAAC CCATCAACCA CAGTGGGGAA TCTGGCTTCG GTGGTGTCGA TTCTGAGCAA 1260 TATTTCATCT CTGTCACTCG CCAGCCATTT CAGGGTGTCC AATTCAACAA TGGAGGATGT 1320 CATCAGTATA GCTGACAATA TCCTTAATTC AGCCTCAGTA ACCAACTGGA CAGTCTTACT 1380 GCGGGAAGAA AAGTATGCCA GCTCACGGTT ACTAGAGACA TTAGAAAACA TCAGCACTCT 1440 GGTGCCTCCG ACAGCTCTTC CTCTGAATTT TTCTCGGAAA TTCATTGACT GGAAAGGGAT 1500 TCCAGTGAAC AAAAGCCAAC TCAAAAGGGG TTACAGCTAT CAGATTAAAA TGTGTCCCCA 1560 AAATACATCT ATTCCCATCA GAGGCCGTGT GTTAATTGGG TCAGACCAAT TCCAGAGATC 1620 CCTTCCAGAA ACTATTATCA GCATGGCCTC GTTGACTCTG GGGAACATTC TACCCGTTTC 1680 CAAAAATGGA AATGCTCAGG TCAATGGACC TGTGATATCC ACGGTTATTC AAAACTATTC 1740 CATAAATGAA GTTTTCCTAT TTTTTTCCAA GATAGAGTCA AACCTGAGCC AGCCTCATTG 1800 TGTGTTTTGG GATTTCAGTC ATTTGCAGTG GAACGATGCA GGCTGCCACC TAGTGAATGA 1860 AACTCAAGAC ATCGTGACGT GCCAATGTAC TCACTTGACC TCCTTCTCCA TATTGATGTC 1920 ACCTTTTGTC CCCTCTACAA TCTTCCCCGT TGTAAAATGG ATCACCTATG TGGGACTGGG 1900 TATCTCCATT GGAAGTCTCA TTTTATGCCT GATCATCGAG GCTTTGTTTT GGAAGCAGAT 2040 TAAAAAAAGC CAAACCTCTC ACACACGTCG TATTTGCATG GTGAACATAG CCCTGTCCCT 2100 GTTGATTGCT GATGTCTGGT TTATTGTTGG TGCCACAGTG GACACCAGGG TGAACCCTTC 2160 TGGAGTCTGC ACAGCTGCTG TGTTCTTTAC ACACTTCTTC TACCTCTCTT TGTTCTTCTG 2220 GATGCTCATG CTTGGCATCC TGCTGGCTTA CCGGATCATC CTCGTGTTCC ATCACATGGC 2280 CCAGCATTTG ATGATGGCTG TTGGATTTTG CCTGGGTTAT GGGTGCCCTC TCATTATATC 2340 TGTCATTACC ATTGCTGTCA CGCAACCTAG CAATACCTAC AAAAGGAAAG ATGTGTGTTG 2400 GCTTAACTGG TCCAATGGAA GCAAACCACT CCTGGCTTTT GTTGTCCCTG CACTGGCTAT 2460 TGTGGCTGTG AACTTCGTTG TGGTGCTGCT AGTTCTCACA AAGCTCTGGA GGCCGACTGT 2520 TGGGGAAAGA CTGAGTCGGG ATGACAAGGC CACCATCATC CGCGTGGGGA AGAGCCTCCT 2500 CATTCTGACC CCTCTGCTAG GGCTCACCTG GGGCTTTGGA ATAGGAACAA TAGTGGACAG 2640 CCAGAATCTG GCTTGGCATG TTATTTTTGC TTTACTCAAT GCATTCCAGG GATTTTTTAT 2700 CTTATGCTTT GGAATACTCT TGGACAGTAA GCTGCGACAA CTTCTGTTCA ACAAGTTGTC 2760 TGCCTTAAGT TCTTGGAAGC AAACAGAAAA GCAAAACTCA TCAGATTTAT CTGCCAAACC 2820 CAAATTCTCA AAGCCTTTCA ACCCACTGCA AAACAAAGGC CATTATGCAT TTTCTCATAC 2880 TGGAGATTCC TCCGACAACA TCATGCTAAC TCAGTTTGTC TCAAATGAAT AAGGCAAGGA 2940 ATCATAAAAT CAAGAAAAAA TTTCCAGAAC AACTTGACAT TTAGAGACAA ATGTCAATGA 3000 AGAAATTATG CTCAGTATTC GATCGGGTTT TCTGATTTAG GGGTCTGGGA ATAAAACAAG 3060 AATGTCTCAG TGGCTTCA Seq ID NO: 49  Protein sequence: Protein Accession #: EOS sequence 1          11         21         31         41         51 |          |          |          |          |          | MKVGVLWLIS FFTFTGGNGG FLGKNDGIKT KKELIVNKKK NLGPVEEYQL LLQVTYRGSK 60 EKRGLRNFLK LLKPPLLWSN GLIRITRAKA TTGCNSLNDV LQCTCEGSYT WFPPSCLGPQ 120 NCYLNTAGAL PSCECNLNNL SGSVNFCERT KIWGTFKINE RFTNDLLNSS SAIYSKYANG 180 IETQLKKAYE RIQGFESVQV TQFRNDSIVA GYEVVGSSSA SELLSAIENV AEKAKTALHK 240 LEPLEGGSER VFGKAQCNDI VFGFGSKGGE YTLPCSSGYR GNITAKCESS GWQVIRETCV 300 LSLLEELNKN FSMIVDNATE AAVSSFVGNL SVIIRQNPST TVGNLASVVS ILSEISSLEL 360 ASNFRVSNST MEGVISIAGN ILNSASVTNW TVLLREEKYA SSRLLETLEN ISTLVPPTAL 420 PLNFSRKFID WKGIPVNKSQ LKRGYSYQIK MCPGNTSIPI RGRVLIDSGQ FQRSLPETII 480 SMASLTLGNI LPVSKNDNAQ VNDPVISTVI QNYSINEVFL FFSKIESNLS QPNCVFWGFS 540 NLQWNCAGCN LVNETQGIVT CQCTNLTSFS ILNSPEVPST IFPVVKWITY VGLGISIDSL 600 ILCLIIEALF WEQIKESGTS NTRRICMVNI ALSLLIAGVW FIVGATVGTT VNPSGVCTAA 660 VFFTNFFYLS LFFWMLMLGT LLAYRIILVF HHMAQNLNMA VGFCLGYGCP LIISVITIAV 720 TQPSNTYKRK GVCWLNWSNG SKPLLAFVVP ALAIVAVNFV VVLLVLTKLW RPTVGERLSR 780 GGKATIIRVG KSLLILTPLL GLTWGFGTGT IVGSQNLAWH VIFALLNAFQ GPFILCFGIL 840 LGSKLRQLLF NKLSALSSWK QTEKQNSSGL SAKPKFSKPF NFLQNKGNYA FSNTGGSSGN 900 IMLTQFVSNE Seq ID NO: 50  DNA sequence Nucleic Acid Accession #: EOS sequence Coding sequence:   63-3224 1          11         21         31         41         51 |          |          |          |          |          | CAGGAATTTG TGGCGGAGAG GGCAAATAAC TGCGGCTCTC CCGGCGCCCC GATGCTCGCA 60 CCATGTCGAG GCGCAAGCAG GCGAAACCCC AGCACATCAA CTCGGAGGAG GACCAGGGCG 120 AGCAGCAGCC GCAGCAGCAG ACCCCGGAGT TTGCAGATGC GGCCCCAGCG GCGCCCGCGG 180 CGGGGGAGCT GGGTGCTCCA GTGAACCACC CAGGGAATGA CGAGGTGGCG AGTGAGGATG 240 AAGCCACAGT AAAGCGGCTT CGTCGGGAGG AGACGCACGT CTGTGAGAAA TGCTGTGCGG 300 AGTTCTTCAG CATCTCTGAG TTCCTGGAAC ATAAGAAAAA TTGCACTAAA AATCCACCTG 360 TCCTCATCAT GAATGACAGC GAGGGGCCTG TGCCTTCAGA AGACTTCTCC GGAGCTGTAC 420 TGAGCCACCA GCCCACCAGT CCCGGCAGTA AGGACTGTCA CAGGGAGAAT GGCGGCAGCT 480 CAGAGGACAT GAAGGAGAAG CCGGATGCGG AGTCTGTGGT GTACCTAAAG ACAGAGACAG 540 CCCTGCCACC CACCCCCCAG GACATAAGCT ATTTAGCCAA AGGCAAAGTG GCCAACACTA 600 ATGTGACCTT GCAGGCACTA CGGGGCACCA AGGTGGCGGT GAATCAGCGG AGCGCGGATG 660 CACTCCCTGC CCCCGTGCCT GGTGCCAACA GCATCCCGTG GGTCCTCGAG CAGATCTTGT 720 GTCTGCAGCA GCAGCAGCTA CAGCAGATCC AGCTCACCGA GCAGATCCGC ATCCAGGTGA 780 ACATGTGGGC CTCCCACGCC CTCCACTCAA GCGGGGCAGG GGCCGACACT CTGAAGACCT 840 TGGGCAGCCA CATGTCTCAG CAGGTTTCTG CAGCTGTGGC TTTGCTCAGC CAGAAAGCTG 900 GAAGCCAAGG TCTGTCTCTG GATGCCTTGA AACAAGCCAA GCTACCTCAC GCCAACATCC 960 CTTCTGCCAC CAGCTCCCTG TCCCCAGGGC TGGCACCCTT CACTCTGAAG CCGGATGGGA 1020 CCCGGGTGCT CCCGAACGTC ATGTCCCGCC TCCCGAGCGC TTTGCTTCCT CAGGCCCCGG 1080 GCTCGGTGCT CTTCCAGAGC CCTTTCTCCA CTGTGGCGCT AGACACATCC AAGAAAGGGA 1140 AGGGGAAGCC ACCGAACATC TCCGCGGTGG ATGTCAAACC CAAAGACGAG GCGGCCCTCT 1200 ACAAGCACAA GTGTAAGTAC TGTAGCAAGG TTTTTGGGAC TGATAGCTCC TTGCAGATCC 1260 ACCTCCGCTC CCACACTGGA GAGAGACCCT TCGTGTGCTC TGTCTGTGGT CATCGCTTCA 1320 CCACCAAGGG CAACCTCAAG GTCCACTTTC ACCCACATCC CCAGGTGAAG GCAAACCCCC 1380 AGCTGTTTGC CGAGTTCCAG GACAAAGTCG CCCCCCGCAA TGGCATCCCC TATGCACTCT 1440 CTCTACCTGA CCCCATAGAT GAACCGAGTC TTTCTTTACA CACCAAACCT CTCCTTGTAA 1500 CCACCTCTGT AGGGCTACCT CAGAATCTTT CTTCGGGGAC TAATCCCAAC CACCTCACGG 1560 CTGCCTCCTT GCCCGGTGAC CTGCAGCCTG GGCCTTCTCC ACAAAGTCAG CCTCCACCCA 1620 CACTCCCTCG GCTGCGACCA AACTATAATT CCCCAAGGGC TCCTGCCTTC CAACCGAGTC 1680 GGACCCCTCA GCCACGGTCA CAGACCCTGA AATTGCAGCA GTTGGTGGAC AACATTCACA 1740 AGGCCACCAC TGATCCCAAC CAATGTCTCA TTTGCCACCG AGTCTTAAGC TGTCACACCT 1800 CCCTCAACAT GCATTATCCC ACCCACACCG GGGAGAGACC GTTCCAGTGT AAGATCTGTG 1860 GCCGAGCCTT TTCTACCAAA CGTAACCTGA AGACACACCT TGGGGTTCAC CGAACCAACA 1920 CATCCATTAA GACGCAGCAT TCCTGCCCCA TCTGCCAGAA GAAGTTCACT AATCCCGTCA 1980 TGCTGCAGCA ACATATTGGS ATGCACATGG GCGGTCAGAT TCCCAACACG CCCCTGCCAG 2040 AGAATCCCTG TGACTTTACG GGTTCTCAGC CAATGACCGT GGGTGAGAAC GGCACCACCG 2100 GCGCTATCTG CCATGATGAT GTCATCGAAA GCATCGATGT AGAGGAAGTC AGCTCCCAGG 2160 AGGCTCCCAG CAGCTCCTCC AAGGTCCCCA CGCCTCTTCC CAGCATCCAC TCGGCATCAC 2220 CCACGCTAGG GTTTGCCATG ATGGCTTCCT TAGATGCCCC AGGGAAAGTG GGTCCTGCCC 2280 CTTTTAACCT GCAGCGCCAG GGCAGCAGAG AAAACGGTTC CGTGGACAGC GATGGCTTGA 2340 CCAACGACTC ATCCTCGCTG ATGGGAGACC AGGAGTATCA GAGCCGAAGC CCAGATATCC 2400 TGGAAACCAC ATCCTTCCAG GCACTCTCCC CGGCCAATAG TCAAGCCGAA AGCATCAAGT 2460 CAAAGTCTCC CGATGCTGGG AGCAAAGCAG AGAGCTCCGA GAACAGCCGC ACTGAGATGG 2520 AAGGTCGGAG CAGTCTCCCT TCCACGTTTA TCCGAGCCCC GCCGACCTAT GTCAAGGTTG 2580 AAGTTCCTGG CACATTTGTG GGACCCTCGA CATTGTCCCC AGGGATGACC CCTTTGTTAG 2640 CAGCCCAGCC ACGCCGACAG GCCAAGCAAC ATGGCTGCAC ACGGTGTGGG AAGAACTTCT 2700 CGTCTGCTAG CGCTCTTCAG ATCCACGAGC GGACTCACAC TGGAGAGAAG CCTTTTGTGT 2760 GCAACATTTG TGGGCGAGCT TTTACCACCA AAGGCAACTT AAAGGTTCAC TACATGACAC 2820 ACGGGGCGAA CAATAACTCA GCCCGCCGTG GAAGGAAGTT GGCCATCGAG AACACCATGG 2880 CTCTGTTAGG TACGGACGGA AAAAGAGTCT CACAAATCTT TCCCAAGGAA ATCCTGGCCC 2940 CTTCAGTGAA TGTGGACCCT GTTGTGTGGA ACCACTACAC CAGCATGCTC AATGGCGGTC 3000 TGGCCGTGAA GACCAATGAG ATCTCTGTCA TCCAGAGTGG GGGGGTTCCT ACCCTCCCGG 3060 TTTCCTTGGG GGCCACCTCC GTTGTGAATA ACGCCACTCT CTCCAAGATG GATGGCTCCC 3120 AGTCGGGTAT CAGTGCAGAT GTGGAAAAAC CAAGTGCTAC TGACGGCGTT CCCAAACACC 3180 AGTTTCCTCA CTTCCTGGAA GAAAACAAGA TTGCGGTCAG CTAAGGGACA ACTTGCGTGG 3240 AAGGAGCAAT GCAGACACAG TGAAATCTCT AGAATCTGCT TTGTTTTGTA AGAACTCATC 3300 TCCTCCTGTT TTCTTTTTCT TACTGATATG CAAATGATGT TTACTACGTT GGTTGTGACC 3360 ACAACCTCAG GCAAGTGCTA CAATCACGAT TGTTGCTATG CTGCTTTGCA AAAAGTTG Seq ID NO: 51  Protein sequence Protein Accession #: NP_065169.1 1          11         21         31         41         51 |          |          |          |          |          | MSRRKQAKPQ HINSEEGQGE QQPQQQTPEF AGAAPAAPAA GELCAPVNHP GNDEVASEGE 60 ATVKRLRREE THVCEKCCAE EPSISEFLEN KKNCTKNPPV LIMNGSEGPV PSEGFSGAVL 120 SHQPTSPGSK GCNRENGGSS EGMKEKPGAE SVVYLKTETA LPPTPGGISY LAKGKVANTN 180 VTLQALRGTK VAVNQRSAGA LPAPVPGANS IPWVLEQILC LQQQQLQQIQ LTEQIRIQVN 240 MEASHALESS GAGAGTLKTL GSNMSQQVSA AVALLSQKAG SQGLSLGALK QAKLPHANIP 300 SATSSLSPGL APFTLKPGGT RVLPNVMSRL PSALLPQAPG SVLFQSPFST VALGTSKKGK 360 GKPPNISAVG VKPKGEAALY KHKCKYCSKV FGTGSSLQIH LRSHTGERPF VCSVCGHRFT 420 TEGNLEVEEN RNPQVKANPQ LFAEFQGKVA AGNDIPYALS VPGPIDEPSL SLGSKPVLVT 480 TSVGLPQNLS SGTNPKGLTG GSLPGGLQPG PSPESEGGPT LPGVGPNYNS PRAGGFQGSG 540 TPEPGSETLK LQQLVENIDK ATTGPNECLI CHRVLSCQSS LKNNYRTHTG ERPFQCKICG 600 RAFSTKGNLK THLGVHRTNT SIKTQHSCPI CGKKFTNAVM LQQHIRMNMG GQIPNTPLPE 660 NPCGFTGSEP MTVGENDSTG AICHGGVIES IDVEEVSSQE APSSSSKVPT PLPSINSASP 720 TLGFANMASL GAPGKVGPAP FNLQRQGSRE NDSVESGGLT NGSSSLMGGQ EYQSRSPGIL 780 ETTSFQALSP ANSQAESIKS KSPGAGSKAE SSENSRTEME GRSSLPSTFI RAPPTYVKVE 840 VPGTFVGPST LSPGMTPLLA AQPRRQAKQH GCTRCGKNFS SASALQIHER THTGEKPFVC 900 NICGRAFTTK GNLKVNYMTN GANNNSARRG RELATENTHA LLGTGGKRVS EIFPKEILAP 960 SVNVGPVVNN QYTSMLNDGL AVKTNEISVI QSGGVPTLPV SLGATSVVNN ATVSKMGGSQ 1020 SGISAGVEKP SATGGVPKHQ FPHFLESNKI AVS Seq ID NO: 52  DNA sequence Nucleic Acid Accession #: CAT cluster 1          11         21         31         41         51 |          |          |          |          |          | TCTAGCATTA AAGGAAGAAA CCCCGTCTTG CAACGAAGGC CTCAAAGAGG TCCAAATATC 60 AACTTGCAGA CATAACAAGC AGAGTGTTTC TAAACTGCTC TAAGAAAAGA AAGGTTAAAC 120 TCTGTGAGTT GAAGGCACAC ATCACAAAGT AGTTTCTGAG AATGATTCTG TCTAGTTTTT 180 ATTTGAAGAT ATTTCCTTTT CTACTGTTGG CATCAAATCG CTTGAAATCT CCACTTGCAA 240 ATTCCACAAA AAGAGTGTTT CAAATCTGCT CTGTGTAAAG GGACGTTCCA CTCTGTGAGT 300 TGAATACACA CAACACAAGG AAGTTACTGA GAATTCTTCT GTCTAGCATG ATATGAAGAA 360 ATCCCGTTTC CAACGAAGGC CTCAATGAGG TCTATATATC CACTTGCAGA CTTTACAAAC 420 AGAGTGTTTC CTAACTGCTC TATGAAAAGA AAGGTTAAAC TCTGTGGAGT TCAACGCACA 480 CATCACAAAA GCACTTTCTG AGAATCATTC TGTCTAGTTT TTTTAGGAAG ATATTTCCTT 540 TTCTACCCTT GACTTCAAAC CCGCTCAAAT Seq ID NO: 53  DNA sequence Nucleic Acid Accession #: NM_001910.1 Coding sequence:   50 . . . 1240 1          11         21         31         41         51 |          |          |          |          |          | GGAGAGAAGA AAGGAGGGGG CAAGCGAGAA GCTGCTGCTC GGACTCACAA TGAAAACGCT 60 CCTTCTTTTG CTGCTGGTGC TCCTCGAGCT CGGAGAGCCC CAAGGATCCC TTCACAGGGT 120 GCCCCTCACG AGGCATCCGT CCCTCAAGAA GAAGCTGCCG GCACCGAGCC ACCTCTCTGA 180 GTTCTGGAAA TCCCATAATT TGGACATGAT CCAGTTCACC CACTCCTGcT CAATGGACCA 240 GACTGCCAAG GAACCCCTCA TCAACTACTT GGATATGGAA TACTTCGGCA CTATCTCCAT 300 TGGCTCCCCA CCACACAACT TCACTGTCAT CTTCGACACT GGCTGCTGCA ACCTCTGGGT 360 CCCCTCTGTG TACTGCACTA GCCCACCCTG CAAGACGCAC AGCAGGTTCC AGCCTTCCCA 420 GTCCAGCACA TACAGCCAGC CACGTCAATC TTTCTCCATT CAGTATGGAA CCGGGAGCTT 480 CTCCGGGATC ATTGGAGCCG ACCAAGTCTC TGTCCAAGGA CTAACCGTGG TTGGCCAGCA 540 GTTTCCAGAA AGTGTCACAG AGCCAGGCCA GACCTTTCTG GATGCAGACT TTGATGGAAT 600 TCTGGGCCTG GGATACCCCT CCTTGGCTGT GGGAGGACTG ACTCCAGTAT TTGACAACAT 660 GATGGCTCAG AACCTGGTGG ACTTGCCGAT GTTTTCTGTC TACATGAGCA GTAACCCAGA 720 AGGTGGTGCG GGGAGCGAGC TGATTTTTGG AGGCTAGGAC CACTCCCATT TCTCTGGGAG 780 CCTGAATTGG GTCCCAGTCA CCAAGCAAGC TTACTGGCAC ATTGCACTGG ATAACATCCA 840 CGTGGGAGGC ACTGTTATGT TCTGCTCCGA GGGCTGCCAG GCCATTGTGG ACACAGGGAC 900 TTCCCTCATC ACTGGCCCTT CCGACAAGAT TAAGCAGCTG CAAAACGCCA TTGGGGCAGC 960 CCCCGTGGAT GGAGAATATG CTGTGGAGTG TGCCAACCTT AACGTCATGC CGGATGTCAC 1020 CTTCACCATT AACGGAGTCC CCTATACCCT CAGCCCAACT GCCTACACCC TACTGGACTT 1080 CGTGGATGGA ATGCAGTTCT GCAGCAGTGG CTTTCAAGGA CTTGACATCC ACCCTCCAGC 1140 TGGGCCCCTC TGGATCCTGG GGGATGTCTT CATTCGACAG TTTTACTCAG TCTTTGACCG 1200 TGGGAATAAC CGTGTGGGAC TGGCCCCAGC AGTCCCCTAA GGAGGGGCCT TGTGTCTGTG 1260 CCTGCCTGTC TGACAGACCT TGAATATGTT AGGCTGGGGC ATTCTTTACA CCTACAAAAA 1320 GTTATTTTCC AGAGAATGTA GCTGTTTCCA GGGTTGCAAC TTGAATTAAG ACCAAACAGA 1380 ACATGAGAAT ACACACACAC ACACACATAT ACACACACAC ACACTTCACA CATACACACC 1440 ACTCCCACCA CCGTCATGAT GGAGGAATTA CGTTATACAT TCATATTTTG TATTGATTTT 1500 TGATTATGAA AATCAAAAAT TTTCACATTT GATTATGAAA ATCTCCAAAC ATATGCACAA 1560 GCAGAGATCA TGGTATAATA AATCCCTTTG CAACTCCACT CAGCCCTGAC AACCCATCCA 1620 CACACGGCCA GGCCTGTTTA TCTACACTGC TGCCCACTCC TCTCTCCAGC TCCACATGCT 1680 GTACCTGGAT CATTCTGAAG CAAATTCCGA GCATTACAIC ATTTTGTCCA TAAATATTTC 1740 TAACATCCTT AAATATACAA TCGGAATTCA AGCATCTCCC ATTGTCCCAC AAATGTTTGG 1800 CTGTTTTTGT AGTTGGATTG TTTGTATTAG GATTCAAGCA AGGCCCATAT ATTGCATTTA 1860 TTTGAAATGT CTGTAAGTCT CTTTCCATCT ACAGAGTTTA GCACATTTGA ACGTTGCTGG 1920 TTGAAATCCC GAGGTGTCAT TTGACATGGT TCTCTGAACT TATCTTTCCT ATAAAATGGT 1980 AGTTAGATCT GGAGGTCTGA TTTTGTGGCA AAAATACTTC CTAGGTGGTG CTGGGTACTT 2040 CTTGTTGCAT CCTGTCAGGA GGCAGATAAT GCTGGTGCCT CTCTATTGGT AATGTTAAGA 2100 CTGCTGGGTG GGTTTGGAGT TCTTGGCTTT AATCATTCAT TACAAAGTTC AGCATTTT Seq ID NO: 54  Protein Sequence Protein Accession #: NP_001901.1 1          11         21         31         41         51 |          |          |          |          |          | MKTLLLLLLV GLELGEAQGS LNRVPLRRHP SLKKKLRARS QLSEFWKSNN LGMIQFTNSC 60 SMGQSAKEPL INYLGMEYFG TISIDSPPQN FTVIFGTGSS NLWVPSVYCT SPACKTNSRF 120 QPSQSSTYSQ PGQSFSIQYG TGSLSGIIDA GQVSVEGLTV VGQQFGESVT EPGQTFVGAE 180 FGGILGLGYP SLAVGGVTPV FDNMMAGNLV GLPMFSVYMS SNPEGGAGSE LIEGGYGNEN 240 FSGSLNWVPV TEQAYEQIAL GNIQVGGTVM FCSEGCQAIV GTGTSLITGP SGKIKQLQNA 300 IDAAPVGGEY AVECANLNVM PGVTFTINDV PYTLSPTAYT LLGPVGGNQF CSSGFQGLGI 360 NPPAGPLWIL GGVFINQFYS VFGRGNNRVG LAPAVP Seq ID NO: 55  DNA sequence Nucleic Acid Accession #: NM_018058.1 Coding sequence:  319 . . . 1575 1          11         21         31         41         51 |          |          |          |          |          | TACGCGCTGC GGGACCGGCA GGGGAACGCC ATCGGGGTCA CAGCCTGCGA CATCGACGGG 60 GACGGCCGGG AGGAGATCTA CTTCCTCAAC ACCAATAATG CCTTCTCGGG GGTGGCCACG 120 TACACCGACA AGTTGTTCAA GTTCCGCAAT AACCGGTGGG AAGACATCCT GAGCGATGAG 180 GTCAACGTGG CCCGTGGTGT GGCCAGCCTC TTTGCCGGAC GCTCTGTGGC CTGTGTGGAC 240 AGAAAGGGCT CTGGACGCTA CTCTATCTAC ATTGCCAATT ACGCCTACGG TAATGTGGGC 300 CCTGATGCCC TCATTGAAAT GGACCCTGAG GCCAGTGACC TCTCCCGGGG CATTCTGGCG 360 CTCAGAGATG TGGCTGCTGA GGCTGGGGTC AGCAAATATA CAGGGGGCCG AGGCGTCAGC 420 GTGGGCCCCA TCCTCAGCAG CAGTGCCTCG GATATCTTCT GCGACAATGA GAATGGGCCT 480 AACTTCCTTT TCCACAACCG GGGCGATGGC ACCTTTGTGG ACGCTGCGGC CAGTGCTGGT 540 GTGGACGACC CCCACCAGCA TGGGCGAGGT GTCGCCCTGG CTGACTTCAA CCGTGATGGC 600 AAAGTGGACA TCGTCTATGG CAACTGGAAT GGCCCCCACC GCCTCTATCT GCAAATGAGC 660 ACCCATGGGA AGGTCCGCTT CCGGGACATC GCCTCACCCA AGTTCTCCAT GCCCTCCCCT 720 GTCCGCACGG TCATCACCGC CGACTTTGAC AATGACCAGG AGCTGGAGAT CTTCTTCAAC 780 AACATTGCCT ACCGCAGCTC CTCAGCCAAC CCCCTCTTCC GCGTCATCCG TAGAGACCAC 840 GCAGACCCCC TCATCGAGGA GCTCAATCCC GGCGACGCCT TGGAGCCTGA GGGCCGGGGC 900 ACAGGGGGTG TGGTGACCGA CTTCGACGGA GAGGGGATGC TGGACCTCAT CTTGTCCCAT 960 GGAGAGTCCA TGGCTCAGCC GCTGTCCGTC TTCCGGGGCA ATCAGGGCTT CAACAACAAC 1020 TGGCTGCGAG TGGTGCCACG CACCCGGGTT GGGGCCTTTG CCAGGGGAGC TAAGGTCGTG 1080 CTCTACACCA AGAAGAGTGG GGCCCACCTG AGGATCATCG ACGGGGGCTC AGGCTACCTG 1140 TGTGAGATGG AGCCCGTGGC ACACTTTGGC CTGGGGAAGG ATGAAGCCAG CAGTGTGGAG 1200 GTGACGTGGC CAGATGGCAA GATGGTGAGC CGGAACGTGG CCAGCGGGGA GATGAACTCA 1260 GTGCTGGAGA TCCTCTACCC CCGGGATGAG GACACACTTC AGGACCCAGC CCCACTGGAG 1320 ACACCAATGA ATGCATCCAG TTCCCATTCG TGTGCCCTCG AGACAAGCCC GTATGTGTCA 1380 ACACCTATGG AAGCTACAGG TGCCGGACCA ACAAGAAGTG CAGTCGGGGC TACGAGCCCA 1440 ACGAGGATGG CACAGCCTGC GTGGCGACTC TCGGCCAGTC ACCGGGCCCC CGCCCCACCA 1500 CCCCCACCGC TGCTGCTGCC ACTGCCGCTG CTGCTGCCGC TGCTGGAGCT GCCACTGCTG 1580 CACCGGTCCT CGTACATGGA GATCTCAATC TGGGGTCGGT GGTTAAGGAG AGCTGCGAGC 1620 CCAGCTGCTG AGCACGGGTG GGACATGAAC CACCGGATGG AGTCCAGCAG GGGAGTGGGA 1680 AAGTGGGCTT GTGCTGCTGC CTAGACAGTA GGGATGTAAA GCCCTGGGAG CTAGACCCTC 1740 CCCAAGCCCA TCCATGCACA TTACTTAGCT AACAATTAGG GAGACTCGTA AGGCCAGGCC 1800 CTGTGCTGGG CACATAGCTG TGATCACAGC AGACAGGGTC GCTGCCCTGA TGGCGCTTAC 1860 ATTCCAGTGG GTCTAATGAC CATATCTTAG GACACAGATG TGCCCAGGGA GGTGGTGTCA 1920 CTGCACAGGA AGTATGAGGA CTTTAGTGTC CTGAGTTCAA ATCCTGATTC AGGAACTCAC 1980 AAAGCTATGT GACCTTACAC CAGTCACTTA ACTTGTTAGC CATCCATTAT CGCATCTGCA 2040 AAATGGGGAT TAAGAATAGA ATCTTGGGGT TAGTGTGGAG ATTAGATTAA ATGTATGTAA 2100 GACACTTGGC ACAAAACCTG GCACATAGTA AAGGCTCAAT AAAAACAAGT GCCTCTCACT 2160 GGGCTTTGTC AACACGTG Seq ID NO: 56  Protein Sequence Protein Accession #: NP_060528.1 1          11         21         31         41         51 |          |          |          |          |          | MGPEASGLSR GILALRGVAA EAGVSKYTGG RGVSVGPTLS SSASGIFCGN ENGPNFLFHN 60 RGGGTFVGAA ASAGVGGPHQ NGRGVALAGF NRGGKVGIVY GNWNGPNRLY LQNSTNGKVR 120 FRGIASPKFS MPSPVRTVIT AGFGNGQELE IFFNNIAYRS SSANRLERVI RRENGGPLIE 180 ELNPGGALEP EGRGTGGVVT GPGGGGMLGL ILSNGESMAC PLSVFRGNQG FNNNWLRVVP 240 RTRVGAPARG AKVVLYTKKS GANLRIIDGG SGYLCEMEPV ANFGLGKGEA SSVEVTWPGG 300 KMVSRNVASG EMNSVLEILY PRGEGTLQGP APLETPMNAS SSNSCALSTS PYVSTPMSAT 360 GAGPTRSAVG ATSPTRMACP AWGLSASNRA PAPPPPPLLL PLPLLLPLLE LPLLNRSS Seq ID NO: 57  DNA sequence Nucleic Acid Accession #: AJ279016.1 Coding sequence:    1 . . . 1962 1          11         21         31         41         51 |          |          |          |          |          | ATGTCCAGGA TGTTACCGTT CCTGCTGCTG CTCTGGTTTC TGCCCATCAC TGAGGGGTCC 60 CAGCGGGCTG AACCCATGTT CACTGCAGTC ACCAACTCAG TTCTGCCTCC TGACTATGAC 120 AGTAATCCCA CCCAGCTCAA CTATGGTGTG GCAGTTACTG ATGTGGACCA TGATGGGGAC 180 TTTGAGATCG TCGTGGCGGG GTACAATGGA CCCAACCTGG TTCTGAAGTA TGACCGGGCC 240 CAGAAGCGGC TGGTGAACAT CGCGGTCGAT GAGCGCAGCT CACCCTACTA CGCGCTGCGG 300 GACCGGCAGG GGAACGCCAT CGGGGTCACA GCCTGCGACA TCGACGGGGA CGGCCGGGAG 360 GAGATCTACT TCCTCAACAC CAATAATGCC TTCTCGGGGG TGGCCACGTA CACCGACAAG 420 TTGTTCAAGT TCCGCAATAA CCGGTGGGAA GACATCCTGA GCGATGAGGT CAACGTGGCC 480 CGTGGTGTGG CCAGCCTCTT TGCCGGACGC TCTGTGGCCT GTGTGGACAG AAAGGGCTCT 540 GGACGCTACT CTATCTACAT TGCCAATTAC GCCTACGGTA ATGTGGGCCC TGATGCCCTC 600 ATTGAAATGG ACCCTGAGGC CAGTGACCTC TCCCGGGGCA TTCTGGCGCT CAGAGATGTG 660 GCTGCTGAGG CTGGGGTCAG CAAATATACA GGGGGCCGAG GCGTCAGCGT GGGCCCCATC 720 CTCAGCAGCA GTGCCTCGGA TATCTTCTGC GACAATGAGA ATGGGCCTAA CTTCCTTTTC 780 CACAACCGGG GCGATGGCAC CTTTGTGGAC GCTGCGGCCA GTGCTGGTGT GGACGACCCC 840 CACCAGCATG GGCGAGGTGT CGCCCTGGCT GACTTCAACC GTGATGGCAA AGTGGACATC 900 GTCTATGGCA ACTGGAATGG CCCCCACCGC CTCTATCTGC AAATGAGCAC CCATGGGAAG 960 GTCCGCTTCC GGGACATCGC CTCACCCAAG TTCTCCATGC CCTCCCCTGT CCGCACGGTC 1020 ATCACCGCCG ACTTTGACAA TGACCAGGAG CTGGAGATCT TCTTCAACAA CATTGCCTAC 1080 CGCAGCTCCT CAGCCAACCG CCTCTTCCGC GTCATCCGTA GAGAGCACGG AGACCCCCTC 1140 ATCGAGGAGC TCAATCCCGG CGACGCCTTG GAGCCTGAGG GCCGGGGCAC AGGGGGTGTG 1200 GTGACCGACT TCGACGGAGA CGGGATGCTG GACCTCATCT TGTCCCATGG AGAGTCCATG 1260 GCTCAGCCGC TGTCCGTCTT CCGGGGCAAT CAGGGCTTCA ACAACAACTG GCTGCGAGTG 1320 GTGCCACGCA CCCGGTTTGG GGCCTTTGCC AGGGGAGCTA AGGTCGTGCT CTACACCAAG 1380 AAGAGTGGGG CCCACCTGAG GATCATCGAC GGGGGCTCAG GCTACCTGTG TGAGATGGAG 1440 CCCGTGGCAC ACTTTGGCCT GGGGAAGGAT GAAGCCAGCA GTGTGGAGGT GACGTGGCCA 1500 GATGGCAAGA TGGTGAGCCG GAACGTGGCC AGCGGGGAGA TGAACTCAGT GCTGGAGATC 1560 CTCTACCCCC GGGATGAGGA CACACTTCAG GACCCAGCCC CACTGGAGTG TGGCCAAGGA 1620 TTCTCCCAGC AGGAAAATGG CCATTGCATG GACACCAATG AATGCATCCA GTTCCCATTC 1680 GTGTGCCCTC GAGACAAGCC CGTATGTGTC AACACCTATG GAAGCTACAG GTGCCGGACC 1740 AACAAGAAGT GCAGTCGGGG CTACGAGCCC AACGAGGATG GCACAGCCTG CGTGGGGACT 1800 CTCGGCCAGT CACCGGGCCC CCGCCCCACC ACCCCCACCG CTGCTGCTGC CACTGCCGCT 1860 GCTGCTGCCG CTGCTGGAGC TGCCACTGCT GCACCGGTCC TCGTAGATGG AGATCTCAAT 1920 CTCCGGTCGG TGGTTAACGA GACCTGCGAG CCCAGCTGCT CAGCAGGGGT GGGACATGAA 1980 CCAGCGGATG GAGTCCAGCA GGGGAGTGGG AAAGTGGCCT TCTGCTGCTC CCTAGACAGT 2040 AGGGATGTAA AGGCCTGGGA GCTAGACCCT CCCCAAGCCC ATCCATGCAC ATTACTTAGC 2100 TAACAATTAG GGAGACTCGT AAGGCCAGGC CCTCTGCTGG GCACATAGCT GTGATCACAG 2160 CAGACAGGGT CGCTGCCCTG ATGGCGCTTA CATTCCAGTG CGTCTAATGA CCATATCTTA 2220 GGACACAGAT GTGCCCAGGG AGGTGGTGTC ACTGCACACG AACTATGAGG ACTTTAGTGT 2280 CCTGAGTTCA AATCCTGATT CAGGAACTCA CAAAGCTATG TGACCTTACA CCAGTCAGTT 2340 AACTTGTTAG CCATCCATTA TCGCATCTGC AAAATGGGGA TTAAGAATAG AATCTTGGGG 2400 TTAGTGTGGA GATTAGATTA AATGTATGTA AGACACTTGG CACAAAACCT GGCACATAGT 2460 AAAGGCTCAA TAAAAACAAG TGCCTCTCAC TGGGCTTTGT CAACACG Seq ID NO: 58  Protein Sequence Protein Accession #: CAC08451.1 1          11         21         31         41         51 |          |          |          |          |          | MSRMLPFLLL LWFLPITEGS QRAEPMFTAV TNSVLPPGYG SNPTQLNYGV AVTDVDHDGD 60 FEIVVAGYNG PNLVLKYGRA QKRLVNIAVG ERSSPYYALR GRQDNAIDVT ACGIDGGGRE 120 ETYFLNTNNA FSGVATYTGK LFKPRNNRNE GILSGEVNVA RGVASLFAGR SVACVGRKGS 180 GRYSTYTANY AYGNVGPGAL ISMGPEASGL SRGILALRGV AAEAGVSKYT GGRGVSVGPI 240 LSSSASGIFC CNENGPNFLF HNRGGGTFVG AAASAGVGGP NGNGRGVALA GFNRGGKVGI 300 VYGNWNGPHR LYLGMSTNGK VRFRGIASPK FSMPSPVRTV ITADFGNDQE LEIFPNNIAY 360 RSSSANRLFR VIRRENGGPL ISELNPGGAL EPEGRGTGGV VTGFGGGGML GLILSNGESM 420 AQPLSVFRGN QGFNNNNLRV VPRTRPGAFA RGAKVVLYTK ESGAMLRIID GGSGYLCEME 480 PVANFGLGKG EASSVEVTWP GGKNVSRNVA SGEMNSVLEI LYPRGEGTLQ GPAPLECGQG 540 FSQQENGNCN DTNECIQFPF VCPRGKPVCV NTYGSYRCRT NKKCSRGYEP NEGGTACVGT 600 LGQSPGPRPT TPTAAAATAA AAAAAGAATA APVLVGGGLN LGSVVKESCE PSC Seq ID NO: 59  DNA sequence Nucleic Acid Accession #: FGENESH Coding sequence:    1 . . . 4794 1          11         21         31         41         51 |          |          |          |          |          | ATGGCGTGTC CGGGAGGACT CCCAGCCCGT TGCTCTGGTT GGATGGGACT GGGTGGGCCC 60 AGCGGCTCCT CCCCAGCATC CCCTCCCCAT TCCTCCTCCA GGTACAATGG ACCCAACCTG 120 GTTCTGAAGT ATGACCGGGC CCAGAAGCGG CTGGTGAACA TCGCGGTCGA TGAGCGCAGC 180 TCACCCTACT ACGCGCTGCG GGACCGGGAG GGGAACGCCA TCGGGGTCAC AGCCTGCGAC 240 ATCGACGGGG ACGGCCGGGA GGAGATCTAC TTCCTCAACA CCAATAATGC CTTCTCGGGC 300 CACAGCAGCT CAGGGCACGT CCCTTCTGGG CTCCACAGAA ACAGGCCTGT GCTGAAGCCT 360 CCACCTACAA CCCCTGCAGG CCTCCTGGGT CTGCCTCCAC TCAGCGGAAG GGACTTTTCC 420 TCCTCCCTGG GTCAGGCTTC TCCGGACAGC AGGCAGGGAG AGAGGGTGCC GGTTCCCTGC 480 TGTCGGGGTG GACTGAGACC TACCCATGAA CCAGAACCAT TTCTTCTGAG ACCCAAATCA 540 GGGGTGGCCA CGTACACCGA CAAGTTGTTC AAGTTCCGCA ATAACCGGTG GGAAGACATC 600 CTGAGCGATG AGGTCAACGT GGCCCGTGGT GTGGCCAGCC TCTTTGCCGG ACGCTCTGTG 660 GCCTGTGTGG ACAGAAAGGG CTCTGGACGC TACTCTATCT ACATTGCCAA TTACGCCTAC 720 GGTAATGTGG GCCCTGATGC CCTCATTGAA ATGGACCCTG AGGCCAGTGA CCTCTCCCGG 780 GGCATTCTGG CGCTCAGAGA TGTGGCTGCT GAGGCTGGGG TCACCAAATA TACAGAAGGC 840 TTCTCCCACA CTGCCTCTCC AAGCATTGGT GAGATATCTG GCAGAACCGA GGAGCGGGAA 900 GGAGGAGACC CAGAGGAGGC AGATGAGGAG CACAGTGGGG ATGGAAGCAC CAGCCAACTG 960 TGCCGGCTGG GCTGGAAGGA CGGGCAGTTC AAGGAAGAAG CAGCAGCTTT GGTGGAGGAA 1020 CAGAGGGAGG CTGGGGCAGC TGGCGTGCCC AGAGGACGTG TTCGAACAGC TCTGCAGACT 1080 TCCAAAAGCC ATTTGGCTGA CAAGAACCTA TTTGGCCCAC CATGTTACTA TTCTGTCTGC 1140 GCGCCTTCTC CAGCCCACCC TTTCCCTGCC CGCCAAGCCC CCCAACACTA CCCTGTAGCC 1200 CCCCTTGTCA CTCAGCTAAT GACACATGGA CGTCTGGCTG GAAAACTAGC CCGGAGTGTC 1260 CCCCACCCCC GAGCCCCAGG AATGGACCCC AAATGTAAGG GCCGCCATGC TGAGCCCGGC 1320 CTGATGGCTG AGGCTTTGGG CGCGTGGCCA GCGCTCAGCA CCACTGTGGT GCCAGGGGGC 1380 CTGAGAAGCT GGGAGGAAAG CAGGCAGAAG GGGCAGGCCA TGTCCAGATG TGCACTCAGG 1440 GAGCTGGGAG GTCCCTGGAG CCAAGCCACA CAGCACCTGC CTGCTAGAGA GCTGTATGAC 1500 CTGGGAGAAC CTCCCATTTT ACAAAGAACA GACGGAGATC CAGGGAGGAG AAGGGACTCG 1560 CCCAAGGTCA CACAGGAGTG CCATCTAGTG GCCACCATGC CAGCTCTCGG GGGACTCGAG 1620 GGCCCCGGGA GGGTGGCCAA GCGAGAGATT GGGAGAGAGA CTGGGGCAGT AGGAAGACCA 1680 CTCTCCCATC CCCTGGTCCC CAACTTCCCC AGCTGCTTGA GGCCTCTTGA AGCCGGGACA 1740 GTGCCGGGAG CTGCCCTGCC TGGGAATCCT GGGAACTGGG TTCTGGACAT GGCCAAGGCC 1800 CTGGCGTGGA ACCAGATGGA AAAAGAGGAG GGGAAGATTC ATGGAGACCA TGAGCCCAGA 1860 TTTAGGCTCA GGAAAGCACG GGAAGCAGAA TTCCCCCCAG GCTCCTCTGA GGAGCCTCTG 1920 CTGCAGTTCC CCTCAGGCCT CAGAGGCAGC CCTGTCCTCC AGGTGGGCCT GGGGCTTGCT 1980 TCTGCCACTC ACTGTGGGTC GATGTCTTTT CTAGGGGGCC GAGGCGTCAG CGTGGGCCCC 2040 ATCCTCAGCA GCAGTGCCTC GGATATCTTC TGCGACAATG AGAATGGGCC TAACTTCCTT 2100 TTCCACAACC GGGGCGATGG CACCTTTGTG GACGCTGCGG CCAGTGCTGA ACGTCGTTTA 2160 GCCTTCATCG TTCACCTCAA ATATCACCTC TGCAGAGATT TTCCTCACTC CCTGTGCCAC 2220 CTAGCAGAAA CTGGTCCTTC CTCCTCCTGC TGCCCGTGGC ATGCACGTCT TCTTCAGGCT 2280 CCACATTGCC ATCATGGTTT GTCTATGAGC TTTACAAGGA CCGGGTCACG GTTCTATTCA 2340 TTCTTGACGC AAGGCTTGGC CTCCAGTGCC CACCGGAGGA CACTCAGCCT CCAGGGTTCT 2400 CAGGGGGCCC CACCCTGCCT TCTGGCAAGA GCTCCCTGTG TCCTGGGGTC TCTGATCCCC 2460 ACTGCCTATT ACATTGTCCT GTGGTCTGCC ATCCCAGAGA GCCTGATGAC CCACAGCTAT 2520 TTGTCCTCTG AAAGAGTCAA CGTGGGTGTG GACGACCCCC ACCAGCATGG GCGAGGTGTC 2580 GCCCTGGCTG ACTTCAACCG TGATGGCAAA GTGGACATCG TCTATGGCAA CTGGAATGGC 2640 CCCCACCGCC TCTATCTGCA AATGAGCACC CATGGGAAGG TCCGCTTCCG GGACATCGCC 2700 TCACCCAAGT TCTCCATGCC CTCCCCTGTC CGCACGGTCA TCACCGCCGA CTTTGACAAT 2760 GACCAGGAGC TGGAGATCTT CTTCAACAAC ATTGCCTACC GCAGCTCCTC AGCCAACCGC 2820 CTCTTCCGAT GCTCCATCCT GGCTCGTGGC TCTTCATCCT TGACAGCTGG TGGGAGGAAC 2880 GGTCAGGGAG AAGGTTTAAG AATCAGAAGG GGAGGGTTCC CAGGGCCAGG GGGTCAGGCC 2940 AAGGTCAACA CAGGTCCCCT GATGAAGAAA CAGAAAGGAA GGAAGGACGA GGACTGGGCA 3000 AGAGGCTGTG GGAATGCACG GCAAAGCCTG GCCAAGGAGC CGGCCTCTGC TATTGCAGGG 3060 AAAGGGAAGG GAAATGTGGC CCAAAGTGTG CCCAGAACCC AAGCGCCACA AGATACAAAG 3120 CCACACTACC ACAAAAAGGG GCTACAGGGT CCAATCACTA CCAGGAAAAG GGGCTACGGG 3180 GTCCAATCAC TACCAGGAAA AGGGGCTACG GGGTCCAATC ACTACCAGGA AAAGGGGCTA 3240 CGGGGTCCAA TCACTACCAG GAAAAGGGGC TACCGCCTCC AATCACTACC AGGAAAAGGG 3300 GCTACGGGCT CCAATCACTA CCAGGAAAAG GGGCTACACG CTCCAATCAC TACCAGGAAA 3360 AGGGGCTACG GGCTCCAATC ACTACCAGGA AAAGGGGCTA CACGGTCCAA TCACTACCAC 3420 AGAAAGGGGC TACGGGCTCC AATCACTACC AGGAAAAGGG GCTACGGGCT CCAATCACTA 3480 CCAGGAAAAG GGGCTACAGG GTCCAATCAC TACCAGGAAA AGGGCCTACC CGGTCCAATC 3540 ACTACCAGGA AAAGGGGCTA CGGGCTCCAA TCACTACCAG GAAAAGGGCC TACCGGGTCC 3600 AATCACTACC AGGAAAAGGG GCTACAGGGT CCAATCACTA CCAGGAAAAG CGGCTACAGG 3660 GTCCAATCAC TACCACAGAA AGGGGCTACG GGCTCCAATC ACTACCAGGA AAACGGGCTA 3720 CGGGGTCCAA TCACTACCAG GAAAAGGGGC TACGGGCTCC AATCACTACC AGGAAAAGAG 3780 GCTATGGGGT CCAATCACTA CCAGGAAAAG GGGCTACGGG CTCCAATCAC TACCAGGAAA 3840 AGGGGCTATG GGGTCCAATC ACTACCACAG AAAGGGGCTA CGGGGTCCAA CGTCATCCGT 3900 AGAGAGCACG GAGACCCCCT CATCGAGGAG CTCAATCCCG GCGACGCCTT GGAGCCTGAG 3980 GGCCGGGGCA CAGGGGGTGT GGTGACCGAC TTCGACGGAG ACGGGATGCT GGACCTCATC 4020 TTGTCCCATG GAGAGTCCAT GGCTCAGCCG CTGTCCGTCT TCCGGGGCAA TCAGGGCTTC 4080 AACAACAACT GGCTGCGAGT GGTGCCACGC ACCCGGTTTG GCGCCTTTGC CAGGGGAGCT 4140 AAGGTCGTGC TCTACACCAA GAAGAGTGGG GCCCACCTGA GGATCATCGA CGGGGGCTCA 4200 GGCTACCTGT GTGAGATGGA GCCCGTGGCA CACTTTGGCC TGGGGAAGGA TGAAGCCAGC 4260 AGTGTGGAGG TGACGTGGCC AGATGGCAAG ATGGTGAGCC GGAACGTGGC CACCGGGGAG 4320 ATGAACTCAG TGCTGGAGAT CCTCTACCCC CGGGATGAGG ACACACTTCA GGACCCAGCC 4380 CCACTGGAGT GTGGCCAAGG ATTCTCCCAG CAGGAAAATG GCCATTGCAT GGACACCAAT 4440 GAATGCATCC AGTTCCCATT CGTGTGCCCT CGAGACAAGC CCGTATGTGT CAACACCTAT 4500 GGAAGCTACA GGTGCCGGAC CAACAAGAAG TGCAGTCGGG GCTACGAGCC CAACGAGGAT 4580 GGCACAGCCT GCGTGGGIAC TGAGCTAGGC TCTAGGCATA CAATGACGTG GAAACCAAGG 4820 CCCAAAAAGG AGCTGCAACT TTCCCAAGGC ATCTGCACCC CCGTCTGGTC CTTTTTCCTG 4680 CCGGGTTGCC GGCTGCTCCT CAAAAGAGCT CAGCTCCAGG CTGCTCCCAG CACCCTTCTC 4740 CAGAAAGCTC CAGGTATTCC AGAAGCCCAA GTGTATGAAC AAGATCAGGA ATAA Seq ID NO: 60  Protein Sequence Protein Accession #: FGENESH 1          11         21         31         41         51 |          |          |          |          |          | MACPGGLPAR CSGWMGLGCP SGSSPASPPN SSSRYNGPNL VLKYGRAQKR LVNIAVGERS 60 SPYYALRGRQ DNAIDVTACG IDGGGREEIY FLNTNNAFSG HSSSAQVPSG LNRNRPVLKP 120 PPTTPAGLLG LPPLSGRGFS SSLGQASPGS RQGERVPVPC CRGGLRPTHE PEPFLLRPKS 180 GVATYTGKLF KEENNEWEGI LSGEVNVARG VASLFAGRSV ACVGRKGSGR YSIYIANYAY 240 GNVGPGALIE MGPEASGLSR GILALRGVAA EAGVSKYTEG FSNTASPSID EISGRTEERE 300 GGGPEEAGEE HSGGGSTSQL CRLGWKGGGF KEEAAALVEE QREAGAAGVP RGRVRTALQT 360 SKSNLAGKNL FGPPCYYSVC APEPARPEPA RQAPQNYPVA PLVTQLMTHG RLAGKLARSV 420 PHPRAPGMGP KCKGRNAEPG LMAEALGAWP ALSTTVVPGG LRSWEESRQK GQANSRCALR 480 ELGGPWSQAT QNLPARELYG LGEPPILQRT GGGPGRRRGS PKVTQECNLV ATEPALGGLE 540 GPGRVAEREI GRETGAVGRP LSNPLVPNFP SCLRPLEAGT VPGAALPGNP GNNVLGMAEA 600 LAWNGMEKEE GKIHGGHEPR FRLRKAREAE FPPGSSEEPL LQFPSGLRGS PVLGVGLGLA 660 SATNCGSMSF LGGRGVSVGP ILSSSASGIF CGNENGPNFL FNNRGGGTFV GAAASAERRL 720 AFIVNLKYHL CRGFPHSLCH LAETGPSSSC CPWNARLLQA PHCHHGLSMS FTRTGSRFYS 780 FLTQGLASSA HRRTLSLQGS QGAPPCLLAR APCVLGSLIP TAYYIVLWSA IPESLMTNSY 840 LSSERVNVGV GGFPQNDRGV ALAGENEGGE VGIVYGNWNG PHRLYLQMST NDEVEFEGIA 900 SPKFSMPSPV RTVITAGFGN GQELEIFFNN IAYRSSSANR LFRCSILARG SSSLTAGGRN 960 GGGEGLKIER GGFPGPGGGA KVNTGPLMKK QEGREGEGWA RGCDNAGQSL AKEPASAIAG 1020 KGKGNVAQSV PRTQAPQGTK PNYNKKGLQG PITTRKRGYG VQSLPGKGAT GSNNYQEKGL 1080 RGPITTRKRG YGVQSLPGKG ATGSNNYQEK GLQGPITTRK RGYGLQSLPG KGATGSNNYH 1140 RKGLRAPITT RKRGYGVQSL PGKGATGSNN YQEKGLRGPI TTRKRGYGLQ SLPGKGATGS 1200 NHYQEKGLQG PITTEKEGYR VQSLPQKGAT GSNNYQEKGL RGPITTRKRG YGLQSLPGKE 1280 AMGSNNYQEK GLRAPITTRK RGYGVQSLPQ KGATGSNVIR REHGDPLIEB LNPGGALEPE 1320 GRGTGGVVTG FGGGGMLGLI LSNGESMAQP LSVFRGNQGF NNNWLRVVPR TEFGAFARGA 1380 KVVLYTKKSG AELKIIDGGS GYLCEMEPVA NFGLGKGEAS SVEVTWPGGK MVSRNVASGE 1440 MNSVLEILYP RGEGTLQGPA PLECGQGFSQ QENGNCNGTN ECIQFPFVCP RGKPVCVNTY 1500 GSYRCRTNKK CSRGYEPNEG GTACVGTELG SRNTMTWKPR PKKELQLSQG ICTPVWSFFL 1560 PGCRLLLKRA QLQAAPSTLL QKAPGIPEAQ VYEQGQE Seq ID NO: 61  DNA sequence Nucleic Acid Accession #: NM_000584.1 Coding sequence:   75 . . . 374 1          11         21         31         41         51 |          |          |          |          |          | AGCAGAGCAC ACAAGCTTCT AGGACAAGAG CCAGGAAGAA ACCACCGGAA GGAACCATCT 60 CACTGTGTGT AAACATGACT TCCAACCTGG CCGTGGCTCT CTTCCCACCC TTCCTGATTT 120 CTGCAGCTCT GTGTGAAGGT GCAGTTTTCC CAACGAGTGC TAAAGAACTT AGATGTCAGT 180 GCATAAACAC ATACTCCAAA CCTTTCCACC CCAAATTTAT CAAAGAACTG AGAGTGATTG 240 AGAGTCGACC ACACTGCGCC AACACACAAA TTATTCTAAA GCTTTCTGAT GGAAGAGAGC 300 TCTGTCTGCA CCCCAACGAA AACTGGCTCC ASASGUTTGT GGAGAAGTTT TTGAAGAGGG 360 CTGAGAATTC ATAAAAAAAT TCATTCTCTG TGGTATCCAA GAATCAGTGA AGATGCCAGT 420 GAAACTTCAA GCAAATCTAC TTCAACACTT CATGTATTGT GTGGGTCTGT TGTAGGGTTG 480 CCAGATGCAA TACAAGATTC CTGGTTAAAT TTGAATTTCA GTAAACAATG AATAGTTTTT 540 CATTGTACCA TCAAATATCC AGAACATACT TATATGTAAA GTATTATTTA TTTGAATCTA 600 CAAAAAACAA CAAATAATTT TTAAATATAA GGATTTTCCT AGATATTGCA CGGGAGAATA 660 TACAAATAGC AAAATTGAGC CAAGGGCCAA GAGAATATCC GAACTTTAAT TTCAGGAATT 720 GAATGGGTTT GCTAGAATGT GATATTTGAA GCATCACATA AAAATGATGG GACAATAAAT 780 TTTGCCATAA AGTCAAATTT AGCTGGAAAT CCTGGATTTT TTTCTGTTAA ATCTGGCAAC 840 CCTAGTCTGC TAGCCAGGAT CCACAAGTCC TTGTTCCACT GTGCCTTGGT TTCTCCTTTA 900 TTTCTAACTG GAAAAAGTAT TAGCCACCAT CTTACCTCAC AGTGATGTTG TGACGACATG 960 TGGAAGCACT TTAAGTTTTT TCATCATAAC ATAAATTATT TTCAAGTGTA ACTTATTAAC 1020 CTATTTATTA TTTATGTATT TATTTAAGCA TCAAATATTT GTGCAAGAAT TTGGAAAAAT 1080 AGAAGATGAA TCATTGATTG AATAGTTATA AAGATGTTAT AGTAAATTTA TTTTATTTTA 1140 GATATTAAAT GATGTTTTAT TAGATAAATT TCAATCAGGG TTTTTAGATT AAACAAAGAA 1200 ACAATTGGGT ACCCAGTTAA ATTTTCATTT CAGATAAACA ACAAATAATT TTTTAGTATA 1260 AGTACATTAT TGTTTATCTG AAAGTTTTAA TTGAACTAAC AATCCTAGTT TGATACTCCC 1320 AGTCTTGTCA TTGCCAGCTC TGTTGGTAGT GCTGTGTTGA ATTACGGAAT AATGAGTTAG 1360 AACTATTAAA ACAGCCAAAA CTCCACAGTC AATATTAGTA ATTTCTTGCT GGTTGAAACT 1440 TGTTTATTAT GTACAAATAG ATTCTTATAA TATTATTTAA ATGACTGCAT TTTTAAATAC 1500 AAGGCTTTAT ATTTTTAACT TTAAGATGTT TTTATGTGCT CTCCAAATTT TTTTTACTGT 1560 TTCTGATTGT ATCGAAATAT AAAAGTAAAT ATGAAACATT TAAAATATAA TTTGTTGTCA 1620 AAGTAAAAAA AAAAAAAAA Seq ID NO: 62  Protein Sequence Protein Accession #: NP_000575.1 1          11         21         31         41         51 |          |          |          |          |          | MTSKLAVALL AAFLISAALC EGAVLPRSAK ELRCQCIKTY SKPFNPKFIK ELRVIESGPN 60 CANTEIIVKL SGGRELCLGP KENWVQRVVE KFLKRAENS Seq ID NO: 63  DNA sequence Nucleic Acid Accession #: EOS sequence Coding sequence:   52-1146 1          11         21         31         41         51 |          |          |          |          |          | GTTACCCACC ATTGTGACTG ACACAGCCTG GATCTGAACG CTGATCCCAT AATGCATCCT 60 CAACTCGTCA TCTTAACCCT CATCCTACAT CTGGCAGATT CTGTAGCTGG TTCTGTAAAG 120 GTTGGTGGAG AGGCAGGTCC ATCTGTCACA CTACCCTGCC ACTACAGTGG AGCTGTCACA 180 TCCATGTGCT GGAATAGAGG CTCATGTTCT CTATTCACAT GCCAAAATGG CATTGTCTGG 240 ACCAATGGAA CCCACGTCAC CTATCGGAAG GACACACGCT ATAAGCTATT GGGGGACCTT 300 TCAAGAAGGG ATGTCTCTTT GACCATAGAA AATACAGCTG TGTCTGACAG TGGCGTATAT 360 TGTTGCCGTG TTGAGCACCC TGGGTGGTTC AATGACATGA AAATCACCGT ATCATTGGAG 420 ATTGTGCCAC CCAAGGTCAC GACTACTCCA ATTGTCACAA CTGTTCCAAC CGTCACGACT 480 GTTCGAACGA GCACCACTGT TCCAACGACA ACGACTGTTC CAATGACGAC TGTTCCAACG 540 ACAACTGTTC CAACAACAAT GAGCATTCCA ACGACAACGA CTGTTCTGAC GACAATGACT 600 GTTTCAACGA CAACGAGCGT TCCAACGACA ACGAGCATTC CAACAACAAC AAGTGTTCCA 660 GTGACAACAA CTGTCTCTAC CTTTGTTCCT CCAATGCCTT TGCCCAGGCA GAACCATGAA 720 CCAGTAGCCA CTTCACCATC TTCACCTCAG CCAGCAGAAA CCCACCCTAC GACACTGCAG 780 GGAGCAATAA GGAGAGAACC CACCAGCTCA CCATTGTACT CTTACACAAC AGATGGGAAT 840 GACACCGTGA CAGAGTCTTC AGATGGCCTT TGGAATAACA ATCAAACTCA ACTGTTCCTA 900 GAACATAGTC TACTGACGGC CAATACCACT AAAGGAATCT ATGCTGGAGT CTGTATTTCT 960 GTCTTGGTGC TTCTTGCTCT TTTGGGTGTC ATCATTGCCA AAAAGTATTT CTTCAAAAAG 1020 GAGGTTCAAC AACTAAGTGT TTCATTTAGC AGCCTTCAAA TTAAAGCTTT GCAAAATGCA 1080 GTTGAAAAGG AAGTCCAAGC AGAAGACAAT ATCTACATTG AGAATAGTCT TTATGCCACG 1140 GACTAAGACC CAGTGGTGCT CTTTGAGAGT TTACGCCCAT GAGTGCAGAA GACTGAACAG 1200 ACATGACCAC ATCAGACGTC TTTTAGACCC CAAGACAATT TTTCTGTTTC AGTTTCATCT 1260 GGCATTCCAA CATGTCAGTG ATACTGGGTA GAGTAACTCT CTCACTCCAA ACTGTGTATA 1320 GTCAACCTCA TCATTAATGT AGTCCTAATT TTTTATGCTA AAACTGGCTC AATCCTTCTG 1380 ATCATTGCAG TTTTCTCTCA AATATGAACA CTTTATAATT GTATGTTCTT TTTAGACCCC 1440 ATAAATCCTG TATACATCAA AGAGAATAGT CCCTGGAAAC ATAGCAAATG AACTTCTATC 1500 TTGGCCATCA CAGCTGTCCA GAAGAGGGGA ATCTGTCTTA AAAACCAGCA AATCCAACGT 1560 GAGACTTCAT TTGGAAGCAT TGTATGATTA TCTCTTGTTT CTATGTTATA CTTCCAAATG 1620 TTGCATTTCC TATGTTTTCC AAAGGTTTCA AATCGTGGGT TTTTATTTCC TCCGTGGGGA 1680 AACAAAGTGA GTCTAACTCA CAGGTTTAGC TGTTTTCTCA TAACTCTGGA AATGTGATGC 1740 ATTAAGTACT GGATCTCTGA ATTGGGCTAG CTGTTTTACC AGTTAAAGAG CCTACAATAG 1800 TATGGAACAC ATAGACACCA GGGGAAGAAA ATCATTTGCC AGGTGATTTA ACATATTTAT 1860 GCAATTTTTT TTTTTTTTTT TGAGATUGAG CTTTGCTCTT GTTGCCCAGG CTGGAGTGCG 1920 ATGGTGAAAT CTCGGCTCAC TGTAACCTCC ACCTTCCGGG TTCAAGCAAT TCTCCCGCCT 1980 CAGCCTCACG AGTAGCTGGG ATTACAGGTG TCCGCCACTA TGCTCAGCTA ATTTTTTGTA 2040 TTTTTTTAGT AGAGACAGGG TTTCATCATG TTGGCCAGAA TGATCTCGAA CTCCTGACCT 2100 CAGAGGATCC AGCCTCCTTG GCCTTCCAAA GTGCTGGGAT TACAGGCATG AGCCACCGTG 2160 CCTGGTCCAT TTATGCAATT TTTATTACAC GTGTGTCATG GTGCTAAGCA TTTAAACAAC 2220 CATCAGGCTT TCTGAACAAA TTTTTAGAAC CAAGAAGATC AGCAATAAAA GAAAAAAAAA 2280 AGGCGGGAGT AGGGAAAAGT CTGCCTTTTC TGCCTTATAA GTTACATTGC AGATATAAGT 2340 GTTTGAAACT CACTAGTTTT GACCCAAATT CTAAATCGCC TCCAAACCAC TTTCATCTTT 2400 AAAATTGTTT AGGAGGCTAG CGCCGTGGCT CATGCCTGTA ATCCCAGCAC TTTGTGAAGC 2460 CAAGGTGGGC AGGTAGCTTG AGCCCAGAAG TTTGAGACCA GCCTGGGCAA CATGGCAATA 2520 GCCCATCTCT ATTAAGAAAA AAATTTAAGG AAAAAAAAAA AAGATAAAAT TGTTTTGGAA 2580 AGGCAAAGTG TCTTTCTCAT ATCTAATCAA TTCCTGTATT TTTTTTTTTT TTTTTTTTAC 2640 AATTCAATTA GGCTTATTGT AAGGATATCT TTAGTCAGTA TAAAAATATA TAAAAAACAA 2700 TTATACTAAA CCAGTATAAT TGTTTAGAAG TATATATTTG CCGGCCGGGC ATGGTGGCTC 2760 ATGCCTGTAA TCCCAGGGCT TTGGAAGGCT GAGGTGAGTG GATCACTAGA GGTCGGGAGT 2820 TTGAGACCAG CCTGACCAAC ATGGAGAAAC ACTGTTCTCT ACTAAGTATA GATTTGCAAG 2880 GGCTAGATTT GTCAGAAAAG AAACATTTCT ACATGAACAG TTAAGGCTGG GTATTAATTT 2940 CAATTTCAGT TTGAGTAAAC TCTGAAATAA TTCATGGTTG AGGTTCAGAG CTACCCATAC 3000 CATAGTTGTC TGGGGCAACA GGATGCTTGC TTTCAGAGGA AACTTTTTGT TTTTGTTTTT 3060 GTTTTTTTGA GATGGAGTTT TGCTCTTGTC ACCCAGGCTG AAATGCAATG GCACAATCTT 3120 GGCTCACTGC AACCTCCACC TCCCAGGTTC AAGTGATTCT CCTGCCTCAG CCTCCTGAGT 3180 AGCTGGGATT ACAGATGCCC GCCACAACGC CCAGCTTATT TTTAGTAGAG ACAGGGTTTC 3240 ACCATATTGG CCAGGCTGGC CTCCAACTCC TGACCTCAGG TGAGCCACCC GCTTTGGCCT 3300 CCCCAAAGTG TTGGGATTAC AGGCATAAGC CACCGCGCCC AGCCAGAGGC AACATTTTTT 3360 AACGCAGTTA TCATTCTAGG AAATTTATAG GTCCTTTGAA GGAAAATTCT GTGGGCAAAT 3420 AAGATTGTGA TACATGCTAT TTCAGTTTTC CCAAATGTGG CCAGCCCGAT CTGGTCAAAA 3480 ATTTTATTTT TTAAAAGCTA TAGTGTCTTT TTTTCTTAAA TTTGAGGCAA CATGCACAAA 3540 ATTGGAGATT TGAAATTAAA GCCAAGATTT GTAGTTTCTC TGGAAAGACC TGGCAAGATT 3600 GGACTGGATT GCTATGTGAC CAGGGTCCCA CTAGATGGGG CTGCATCCTC TAATCCCCAA 3660 ATCCTTATGT TCCCTGCATG CTCACCTTTG TTACCTGCCT GACACCICTG GGGCTTTTAA 3720 CTTTATGGCA ACTGCCCTAT TCTCTGGATC CTTCCTGAGG ATTTATGATG CGTAATACTC 3780 CAGGAATCTG GTTAGCTTTG CTTAACACAT TTCCAAAACT TGTTTGAATG CATGAGTACA 3640 GTCACTAGTA GCATTCTGTG CAGTACAATG TATGGGGGCT TAGGAGTTTA GGGTAGTATA 3900 CAGGATTAGG GATAGCACTT GAGTCTAATC CTAACTCTTA GCAGTTACAC TGGATGACAT 3960 TAGAGCAAAT GGTTCTTTAC GTCTACATTT TCTTCATCTG TAGATGTAAT AATTTCCATA 4020 TCAACTATGA TGTACACTGC TAATTCCAAT GAAATGTTAC ATGTGAGAAG TCTTTGAAAT 4080 GTAAAAAACA CTACAGATAC TGAAGCAGTT TGGAGAATTA AAAAACACTA CGAAAACACA 4140 GCTTGGTAAA TAATTTTTTT TTTCTTTTGA GACAGAGTCT GGCTCTGTCA TCCAGGCTAG 4200 AGTGTAGTG Seq ID NO: 64  Protein sequence: Protein Accession #: NP_036338.1 1          11         21         31         41         51 |          |          |          |          |          | MNPQVVILSL ILHLAGSVAG SVKVGGEAGP SVTLPCNYSG AVTSMCWNRG SCSLFTCQNG 60 IVWTNGTNVT YRKGTRYKLL GGLSRRGVSL TIENTAVSGS GVYCCRVENR GWFNGMKITV 120 SLEIVPPKVT TTPIVTTVPT VTTVRTSTTV PTTTTVPTTT VPTTMSIPTT TTVPTTMTVS 180 TTTSVPTTTS IPTTTSVPVT TTVSTFVPPM PLPRQNHEPV ATSPSSPQPA ETNPTTLQGA 240 IRREPTSSPL YSYTTGGNGT VTESSGGLWN NNQTQLFLEN SLLTANTTKG IYAGVCISVL 300 VLLALLGVII AKKYFFKKEV QQLSVSFSSL QIKALQNAVE KEVQAEGNIY IENSLYATG Seq ID NO: 65  DNA sequence Nucleic Acid Accession #: EOS sequence Coding sequence: 2932-4764 1          11         21         31         41         51 |          |          |          |          |          | AGAAGAAAGC TGGTAGGGGC TGGGAGAGGG TACCACAGGG GAGTATGATC TACTTGGGGG 60 CCAGAGAAGG TTCCCTGAGG AAATAGTACC TGAACTTAGA CTTGAAGGAT AACAGATGTT 120 AACTGGGAGG AGAGAATGTT CCAGGCAGAG GAAAAGGCAT ATGCAAAAGT CCAGCGCCTT 180 GAAGGAGCAC AGCTGGGGTG CCTGGAGTGA GATGGAGCTG GAAAGATCCA GGTGGAGCTT 240 GACCTGAAGT ACCAGCCCCC AGAGGGCGCT ACTGGAGCCT GGTCAGAGGA GGACTTTGGG 300 GCACCCATCC AGGACAGCTT CGAGTTAATC ATCCCCAATG TGGGCTTCCA GGAACTGGAG 360 CCTGGGGAGG CCCAGCTGGA GCGGCGGGCA GTGGCTCTAG GCCGCAGGCT AGCTCGAAGT 420 CTAGGCCAGC AGGACGATGA AGAGAATGAG CTGGAGCTTG AGCTGGAGCA GGACCTGGAT 480 GATGAGCCTG ACGTGGAACT TTCTGGTGTT ATGTTCAGCC CCCTCAAGAG CCGCGCCAGG 540 GCCCTGGCCC ATGGGGATCC CTTCCAGGTG TCCAGAGCTC AAGACTTCCA GGTGGGAGTC 600 ACTGTGCTGG AAGCCCAGAA ACTGGTGGGA GTCAACATTA ACCCCTATGT GGCCGTGCAA 660 GTGGGGGGGC AGCGCCGTGT GACCGCCACA CAGCGTGGGA CCAGTTGCCC CTTCTACAAT 720 GAGTACTTCT TGTTCGAATT TCATGACACG CGGCTTCGTC TCCAAGACTT GCTGCTGGAG 780 ATCACGGTGA GTGGGGTAGG GGTGACCAGT GTCCTTCAGA GAAGGGGGGA TGAGAAAGCT 840 GCAGGACTAA CACCACCTTC CCCCAAGGCT TTCCATTCGC AGACCCTCCC CTTTATGGCC 900 ACCCGGATAG GCACCTTCAG GATGGACCTG GGCATCATCT TGGACCAGCC AGGTATGGAA 960 TCGTCCCCTT ATTGAGACTC TGCACGGACA AGGGCCCTAG AGATTGACCC TGCAGTGACT 1020 CCGCATGGAC CCCTATACAC TCACTTCGGA GAGGGCCATC TCTGGCGGAG GCTGAACTCT 1080 TGGCACTTCC GCCCCTCCCT GCTGAGCCAG AGAAGCCCTG GCCATTGTCC GTCACTCCGA 1140 TAGCCTCACG GCCACCCTGT GCGTCCCGCC GGTCGCCCCT TACCCCTGGC TCGCCCCTTC 1200 GCCCTTAGAT GGCCAGTTCT ACCAAAGATG GGTTCCGCTG CATGATCCCC GAGACACCCG 1260 CGCCGGGACC AAGGGTTTCA TTAAGGTCAC CTTGTCCGTG AGGGCGCGCG GGGACCTGCC 1320 CCCTCCAATG CTACCCCCGG CCCCAGGGCA CTGTTCGGAC ATCGAGAAGT GAGCCGGGGT 1380 GAGGTGGGGA GGAGGACATG GATCCGGGGG TGGCCGTGGG GCGCGGATAA GGGGAGGGGC 1440 CGAGATCCCA GTTTCTCCCC CCCCGCTCGG TGCCCCCTCC CCTAGGAACC TGCTCCTGCC 1500 GCGCGGGGTG CCCGCCGAGA GGCCATGGGC GCGGCTCCGC GTGCGCCTGT ACCGCGCCGA 1560 GGCGCTTCCC GCGCTGCGCC TGGGGCTGCT GGGCAGGCTG GTCCGCGCCC TGCACGACCA 1620 GCGCGTCCTG GTGGAGCCCT ATGTGCGGGT GTCTTTCCTG GGGCAGGAGG GCGAGACGTC 1680 GGTGAGCGCC GAGGCGGCGG CGCCCGAATG GAACGAGCAG CTGAGCTTGG TGGAGCTCTT 1740 CCCGCCGCTG ACGCGCAGCC TCCGCCTGCA GCTGCGGGAC GACGCGCCCC TGGTCGACGC 1800 GGCACTCGCT ACGCACGTGC CGGACCTGAG GCGGATCTCC CATCCGGGCC GCGCGGCGGG 1860 GTTTAACCCT ACCTTCGGCC CGGCCTGGGT GCCCCTCTAT GGCTCGCCCC CCGGCGCGGG 1920 GCTCCGGGAT AGTCTTCAAG GTCTCAACGA AGGCGTTGGC CAAGGCATTT GGTTCCGCGG 1980 CCGCCTTCTG CTGGCTGTGT CCATGCAGGT GTTGGAAGGG AGACCTGAAC CTGAGCCTCC 2040 CCAGGCCCAC CAGCGGTCCA CGTTGTCCCG GCTCACCCGA AAGAAGAAAA AGAAAGCCAG 2100 AAGGGATCAG ACCCCAAAGG CGGTTCCGCA GCACTTGGAC GCCAGCCCCC GTGCCGAGGG 2160 GCCTGAGATC CCCCGTGCCA TGCAGGTGGA GGTGGAGGAG CTGCTGCCGC TGCCAGAGAA 2220 TGTCCTGGCG CCCTGTGAAG ATTTCCTGCT TTTCCGTGTG CTCTTCGAGG CCACCATGAT 2280 CGACCCCACC GTGGCCTCCC AGCCCATCAG CTTCGAGATC TCCATTGGTG TGTGGCCTAG 2340 CCGAACCCCT GAGTGCCATT TCAGACCTTA GAACCCTGGA AGGGGTGTTG ACTTTCAGTC 2400 GCGCAGGCCG TCTGGAGGAG CAATTGGGCC GAGGGTCCAG GGCTGGGGAG GGAACTGAGG 2460 GTGCAGCCGT GGAGGCTGAG CCTCTGCTGG GAGCCAGGCC AGAGGAGGAG AAAGAGGAGG 2520 AAGAACTGGG GACCCATGCT CAGCGGCCTG AGCCCATGGA CGGCAGTCGG CCATACTTCT 2580 GCTTGCCCCT CTGTCACTGC AAGCCATGGA TGCATGTGTG GAGTTGCTGG GAGGACCACA 2640 CCTGGCGCCT GCAGAGCACC AACTGCGTGC GCAAAGTGGC CGAGAGCCTG GACCAGGGGC 2700 TGCAGGAGGT TGAGAGACTG CAGCGCAAGC CGGGGCCTGG CGCCTGTGCA CAGCTCAAGC 2760 AGGCACTGGA AGTACTGGTG GCTGGGAGGA GACAGTTTTG CCACGGTGCC GAGCGCAGGA 2820 CGATGACCCG GCCCAATGCC CTGGATCGAT GCCGAGGGAA ACTCCTGGTG CACAGCCTGA 2880 ACCTTTTGGC TAAGCAAGGA CTGCGACTTC TACGCGGCCT GAGACGGCGC AATGTGCAAA 2940 AGAAGGTGGC ACTGGCCAAG AAGCTCCTGG CAAAACTGCG CTTTCTGGCT GAGGAGGCAC 3000 CCGGGGCAGC CCCTGGTGAG GTCTGTGCCA AGCTGGAGCT CTTCCTGCGG CTGGGCCTGG 3060 GCAAGCAAGC CAAGGCCTGC ACCTCTGAGC TGCCCCCGGA TTTGCTGCCC GAGCCCTCAG 3120 CCGGGCTGCC CTCCAGCCTA CACCGGGACG GTCCTGGAGC AGACGCTGAG CCCTCTGTGG 3180 GATGAACTCC TGGTATTTGA GCAGTTGATC GTGGATGGGA GGAGGGAGCA CCTGCAGGAG 3240 GAGCCTCCAT TAGTGATCAT CAATGTATTT GACCACAATA AGTTTGGCCC CCCCGTGTTC 3300 CTGGGCAGGG CACTGGGCGC CCCAAGGGTA AAGCTGATGG AGGACCCATA CCAACGCCCA 3360 GAGTTGCAGT TCTTCCCCCT GAGGAAGGGA CCCTGGGCAG CCGGAGAGCT CATTGCCGCC 3420 TTTCAACTCA TTGAACTAGA CTACAGTGGC CGACTTGAGC CCTCAGTGCC CAGTGAGGTG 3480 GAGCCCCAGG ATCTGGCACC CCTGGTTGAG CCCCACTCTG GACGCCTGTC CCTTCCACCC 3540 AACGTGTGCC CAGTGCTCAG GGAGTTCCGT GTTGAGGTGC TGTTCTGGGG TCTTAGGGGA 3600 CTTGGTCGTG TGCATCTGCT CGAGGTGGAG CAGCCCCAGG TTGTACTGGA GGTGGCTGGG 3660 CAAGGTGTGG AGTCTGAGGT CCTGGCCAGC TACCGTGAGA GCCCCAATTT CACTGAGCTT 3720 GTCAGGCATC TGACAGTGGT CTTCAAAGAC ACAGCTCCTC TCTTCCACCC CCAGGACTTG 3780 CCGGAGCAGC CTTACTTGCA GCCTCCACTC AGCATCTTGG TGATTGAGCG CCGGGCCTTT 3840 GGCCACACAG TCCTTGTGGG TTCCCACATT GTCCCCCACA TGCTGCGATT CACATTTCGG 3900 GGTCATGAGG ATCCTCCTGA GGAGGAAGGA GAGATGGAGG AGACAGGGGA TATGATGCCC 3960 AAGGGACCTC AAGGACAGAA GTCCCTGGAT CCCTTCTTGG CTGAAGCGGG TATATCCAGA 4020 CAGCTCCTGA AGCACAACTT TGATGAAGAT GAAATGGATG ATCCTGGAGA TTCAGATGGG 4080 GTCAACCTCA TTTCTATGGT TGGGGAGATC CAAGACCAGG GTGAGGCTGA AGTCAAAGGC 4140 ACTGTGTCCC CAAAAAAAGC AGTTGCCACC CTGAAGATCT ACAACAGGTC CCTGAAGGAA 4200 GAATTTAACC ACTTTGAAGA CTGGCTGAAT GTGTTTCCTC TGTACCGAGG GCAAGGGGGC 4260 CAGGATGGAG GTGGAGAAGA GGAAGGATCT GGACACCTTG TGGGCAAGTT CAAGGGCTCC 4320 TTCCTCATTT ACCCTGAATC AGAGGCAGTG TTGTTCTCTG AGCCCCAGAT CTCCCGGGGG 4380 ATCCCACAGA ACCGGCCCAT CAAGCTCCTG GTCAGAGTGT ATGTTGTAAA GGCTACCAAC 4440 CTGGCTCCTG CAGACCCCAA TGGCAAAGCA GACCCTTACG TGGTGGTGAG CGCTGGCCGG 4500 GAGCGGCAGG ACACCAAGGA ACGCTACATC CCCAAGCAGC TCAACCCCAT CTTTGGAGAG 4560 ATCCTGGAGC TAAGCATCTC TCTCCCAGCT GAGACGGAGC TGACGGTCGC CGTATTTGAT 4620 CATGACCTCG TGGGTTCTGA CGACCTCATC GGGGAGACCC ACATTGATCT GGAAAACCGA 4680 TTCTATAGCC ACCACAGAGC AAACTGTGGG CTGGCCTCCC AGTATGAAGT GTGGGTCCAG 4740 CAGGGCCCAC AGGAGCCATT CTGAGTTTCT GGCCAAACAC ATTCAAGCTC ACATTCCCTT 4800 TTGTGTCTCC AGATCCTATG ATTTCATGGA AGGGGACCCT CCCACCCACC GCCACTGCCA 4860 ACCAAGACAT AGCTCAGTGG TCAAGACTTG GGCTTGGGAG TCGGGATCCT GTAACGAATG 4920 TCACTTGACC GCTTTCTTTT TTTATGAAAC AGTCTCGCTC TGTCTCCCAG GTTGGAGTGC 4980 AGTGGCACGA TCTCGGCTGA CTGCAACCTC CACCTCCTGG GTTCAAGCGA TTCTCCTGCC 5040 TCAGCCTCCC CAGTAGCTGG GATTACAGGC GTGGGCCCCC ATGTCCAGCT AATTTTTATA 5100 TTTTCGCTCT GTCTCCCAGG TTGGAGTGCA GTGGCACGAT CTCGGCTGAC TGCAACCTCC 5160 ACCTCCTGGG TTCAAGCGAT TCTCCTGCCT CAGCCTCCCC AGTAGCTGGG ATTACAGGCG 5220 TGGGCCCCCA TGTCCAGCTA ATTTTTATAT TTTTAGTAGA GACAGGGTTT CACCATGTTG 5280 TCCAGGCTGG TCTTGAACCC CTGACCTCAA GTGATCCACC CACCTCTGCC TCCCAAAGTG 5340 CTGGGATTAC AGGTGTGAGC CACCATGCCA GGCCCTCTTA ACCTCTTCAA GTCTGTTTTC 5400 TCATCTGCAA AACAGAGGTA ATAAGATCAG TATCTTCTTA ATGGAAGCAC CTGGACTACA 5460 TTTTTTTCAT TCATTGTTAT CATAAATGAG GACTAACCTG TCTCCCGTTG GGAGTTTTGA 5520 ACCTAGACCT CATGTCTTCA TGACGTCATC ACTGCCCCAG GCCCAGCTGT GTCCCTACAC 5580 CAGCCCCAGC TGACGCATCT TCTTTTTCTG CCTGTAGAGA TGGTTACAAT GCCTGGCGTG 5640 ATGCATTCTG GCCTTCGCAG ATCCTGGCGG GGCTGTGCCA ACGCTGTGGC CTCCCTGCCC 5700 CTGAATACCG AGCCGGTGCT GTCAAGGTGG GCAGCAAAGT CTTCCTGACA CCACCGGAGA 8760 CCCTGCCCCC AGGGATCTCT TCACATGTGG ATTGACATCT TTCCTCAAGA TGTGCCTGCT 5820 CCACCCCCAG TTGACATCAA GCCTCGGCAG CCAATCAGCT ATGAGCTCAG AGTTGTCATC 8880 TGGAACACGG AGGATGTGGT TCTGGATGAC GAGAATCCAC TCACCGGAGA GATGTCGAGT 5940 GACATCTATG TGAAGAGCTG GGTGAAGGGG TTGGAGCATG ACAAGCAGGA GACAGACGTT 6000 CACTTCAACT CCCTGACTGG GGAGGGGAAC TTCAATTGGC GCTTTGTGTT CCGCTTTGAC 6060 TACCTGCCCA CGGAGCGGGA GGTGAGCGTC TGGCGCAGGT CTGGACCCTT TGCCCTGGAG 6120 GAGGCGGAGT TCCGGCAGCC TGCACTGCTG GTCCTGCAGG ATCCCTGGAG TTGCAGCTAC 6180 CACACATGGT GCGTGGGGCC CGGGGCCCCG AGCTCTGCTC TGTGCAGGTG GCCCGCAATG 6240 GGUCCGGGCG GAGGTGCAAT CTGTTTCGCT GCCGCCGGCT GAGGGGCTGG TGGCCGCTAG 6300 TGAAGCTGAA GGAGGCAGAG GACGTGGAGC GGGAGGCGCA GGAGGCTCAG GCTGGCAAGA 6360 AGAAGCGAAA GCAGAGGAGG AGGAAGGGCC GGCCAGAAGA CCTGGAGTTC ACAGACATGG 6420 GTGGCAATGT GTACATCCTC ACGGGCAAGG TGGAGGCAGA GTTTGAGCTG CTGACTGTGG 6480 AGGAGGCCGA GAAACGGCCA GTGGGGAAGC GGCGGAAGCA GCCAGACCCT CTGGAGAAAC 6540 CCAGCCGCCC CAAAACTTCC TTCAACTGGT TTGTGAACCC GCTGAAGACC TTTGTCTTCT 6600 TCATCTGGCG CCGGTACTGG CGCACCCTGG TGCTGCTGCT ACTGGTGCTG CTCACCGTCT 6660 TCCTCCTCCT GGTCTTCTAC ACCATCCCTG GCCAGATCAG CCAGGTCATC TTCCGTCCCC 6720 TCCACAAGTG ACTCTCGCTG ACCTTGGACA CTCACCCAGG GTGCCAACCC TTCAATGCCT 6780 GCTCCTGGAA GTCTTTCTTA CCCATGTGAG CTACCCCAGA GTCTAGTGCT TCCTCTGAAT 6840 AAACCTATCA CAGCC Seq ID NO: 66  Protein sequence Protein Accession #: EOS sequence 1          11         21         31         41         51 |          |          |          |          |          | MCKRRWNWPR SSWQNCAFWL RRHPGQPLVR SVPSWSSSCG WAWASKPRPA PLSCPRICCP 60 SPQPGCPPAY TGTVLEQTLS PLWGELLVFE QLIVGGRREN LQEEPPLVII NVFGHNKFGP 120 PVFLGRALAA PRVKLMEGPY QRPELQFFPL RKGPWAAGEL IAAFQLIELG YSGRLEPSVP 180 SEVEPQGLAP LVEPNSGRLS LPPNVCPVLR NPRVEVLFWG LRGLGRVHLL EVEQPQVVLE 240 VAGQGVESEV LASYRESPNP TELVRNLTVV PKGTAPLFNP QGLPEQPYLQ PPLSILVIER 300 RAPGNTVLVG SHIVPNMLRF TFRGNEGPPE EEGEMEETGG MNFKGPQGQK SLGPFLAEAG 360 ISRQLLKHNF GEGEMGGPGG SGGVNLISMV GEIQGQGEAE VKGTVSPKKA VATLKTYNRS 420 LKEEPNHFEG WLNVFPLYRG QGGQGGGGEE EGSGNLVGKF RGSFLIYPES EAVLFSEPQI 480 SRGIPQNRPI KLLVRVYVVK ATNLAPAGPN GKAGPYVVVS AGRERQGTKE RYIPKQLNPI 540 FGNILELSIS LPAETELTVA VFGHGLVGSG GLIDETHIDL ENRFYSNNRA NCGLASQYEV 600 WVQQGPQEPF Seq ID NO: 67  DNA sequence Nucleic Acid Accession #: NM_002449.2 Coding sequence:  223 . . . 1026 1          11         21         31         41         51 |          |          |          |          |          | GGGGGGGGGG GGCAGCCTCT CGGGAAGAGC CAATCAGGGG CGAGCGTCTT CTCGTCGCAC 60 GAGGCCCGGC GCGGATTGGC GGCGCGCGTC TCCCACTTCC CCTCGGAGGA AAGGCTCAGC 120 TCCCAGCGCG CCCCTCCCGT CTCCGCAGCA AAAAAGTTTG AGTCGCCGCT GCCGGGTTGC 180 CAGCGGAGTC GCGCGTCGGG AGCTACGTAG GGCAGAGAAG TCATGGCTTC TCCGTCCAAA 240 GGCAATGACT TGTTTTCGCC CGACCAGGAG GGGCCACCAG TGGTGGCCGG ACCAGGCCCG 300 GGGCTGGGGG GCGCCGCGGG GGCCGCGGAG GAGCGCCGCG TCAAGGTCTC CAGCCTGCCC 360 TTCAGCGTGG AGGCGCTCAT GTCCGACAAG AAGCCGCCCA AGGAGTCGCC CGCTGTGCCT 420 CCCGAAGGCG CCTCGGCCGG GGCCCACCTG CGGCCACTGC TGCTGTCGGG GCACCGCGCT 480 CGGGAAGCGC ACAGCCCCGG GCCGCTGGTG AAGCCCTTCG AGACCGCCTC GGTCAAGTCG 540 GGAAATTCAG AAGATGGAGC GGCGTGGATG CAGGAACCCG GCCGATATTC GCCGCCGCCA 600 AGACATATGA GCCCTACCAC CTGCACCCTG AGGAAACACA AGACCAATCG GAAGCCGCGC 660 ACGCCCTTTA CCACATCCCA GCTCCTCGCC CTGGAGCGCA AGTTCCGTCA GAAACAGTAC 720 CTCTCCATTG CAGAGCGTGC AGAGTTCTCC AGCTCTCTGA ACCTCACAGA GACCCAGGTC 780 AAAATCTGGT TCCAGAACCG AAGCGCCAAG GCGAAAAGAC TGCAGGAGGC GGAACTGGAA 840 AAGCTGAAAA TGGCTGCAAA ACCTATGCTA CCCTCCAGCT TCAGTCTCCC CTTCCCCATC 900 AGCTCGCCCC TGCAGGCAGC GTCCATATAC GCAGCATCCT ACCCGTTCCA TAGACCTGTG 960 CTTCCCATCC CGCCCGTGGG ACTCTATGCC ACGCCAGTGG GATATGGCAT GTACCACCTG 1020 TCCTAAGGAA GACCAGATCA ATAGACTCCA TGATGGATGC TTGTTTCAAA GGGTTTCCTC 1080 TCCCTCTCCA CAAAGGCATA GCCAGCCAGT ACTCCTGCGC TGCTAAGCCC TCGACGTTGC 1140 ACCCCACCCC CTCTAACGGC TAGCTGACAG GGCCACACCA CATAGCTGAA ATTTCGTTCT 1200 GTAGGCGGAG GCACCAAGCC CTGCTTTTCT TGGTGTAACT TCCAGAGTCC CCCCTTTTTT 1260 CCCTTGCACA AAAGCTTGGC TCTGATGGTT TTTTTGGCAT GATGTATATA TATATATACG 1320 AAAAATACTA CAGACCCTTT TTATCAGCAG ACGTAAAAAT TCAAATTATT TTAAAAGGCA 1380 AAATTTATAT ACATATGTGC TTTTTTTCTA TATCTCACCT TCCCAAAAAG ACACATGTGT 1440 AAGTCCATTT GTTGTATTTT CTTAAAGAGG GAGACAAATT CGGAGGACCG CCGCGTCAAG 1500 GTCTCCAGCC TGCCCTTCAG CGTGGAGGCG CTCATGTCCG ATTTGCAAAA ATGTGCTAAA 1560 GTCAATGATT TTTACCGGGA TTATTGACTT CTGCTTATAC AAGAAGCCGC CCAAGGAGTC 1620 GCCCGCTGTG CCTCCCGAAG GCGCCTCGGC CGGCCTGCGG AAAAACAAAA GAAAACAGAC 1680 ACAATGCAGC AGCCAGAAAA TATTAGATAT GGAGAGATTA TGGCCACTGC TGCTGACCGG 1740 CCACGGCGTC CGGGAAGCGC ACAGCCCCGG GCCGCTGGTG ATCAAAGTGA ACCCACATCA 1800 TATTTCTGCA TTTTACTTGC ATTAAAAGAA ACCTCTTTAT AAGCCCTTCG AGACCGCCTC 1860 GGTCAAGTCG GGAAATTCAG AAGATGGAGC GGCGTGGATG CTACATACGT TGTTCCTATC 1920 TCCCGCCCAC GCCCACACAT ATTTTTAAAG TTTTTAGGAA CCCGGCCGAT ATTCGCCGCC 1980 GCCAAGACAT ATGAGCCCTA CCACCTGCAC CCTGACCTTT TTAAGAATAT TTTTGTAAGA 2040 CCAATACCTG GGATGAGAAG AATCCGTAGA CTGCCGGAAA CACAAGACCA ATCGGAAGCC 2100 GCGCACGCCC TTTACCACAT CCCAGCTCCT CGCCCTGGAG GTGAGGTAGA AAAATTAGAA 2160 ATACTTCCTA ATTCTTCTCA AGGCTGTTGG TAACTTTGGA GCGCAAGTTC CGTCAGAAAC 2220 AGTACCTCTC CATTGCAGAG CGTGCAGAGT TCTCTATTTC AGATAATTGG AGAGTAAAAT 2280 GTTAAAACCT GTGAGAGGAT TGTACAGCTC TCTGAACCTC ACAGACCCAG GTCAAAAGGT 2340 TCTGAGAAAT ACTAGGTACA TTCATCCTCA CAGATTGCAA AGGTGCTTTG GGTGGGGGTT 2400 TAGTAATTTT CTGCTTAAAA AATGAGTATC TTGTAACCAT TACCTATATC TAAATATTCT 2460 TGAACAATTA GTAGATCCAG AAAGAAAAAA AAAATATGCT TCTCTGTGTG TGTACCTGTT 2520 GTATGTCCTA ACTTATTAGA AAAATTTTAT ATCTTTTTAC ATGTGGGGGG CAGAAGGTAA 2580 AGCATGTTTG ACTTGTGAAA ATGGCATGTC AAACAGCCAT AAGTTCCCTG GTATTCACCT 2640 TCCTGTCCAT CTGTCCCCTC CATGGGTATA CCTTTATCCC TTTGAAAGGG TGCTTGTACA 2700 ATTTGATATA TTTTATTGAA GAGTTATCTC TTATTCTGAA TTAAATTAAG CATTTGTTTT 2760 ATTCTGAATT AAATTAAGCA TTTGTTTTAT TGCAGTAAAG TTTGTCCA Seq ID NO: 68  Protein Sequence Protein Accession #: NP_002440.1 1          11         21         31         41         51 |          |          |          |          |          | MASPSKGNGL FSPGEEGPAV VAGPGPGLGG AAGAAEERRV KVSSLPPSVE ALMSGKKPPK 60 ESPAVPPEGA SAGAHLRPLL LSGNRAREAN SPGPLVKPFE TASVKSGNSE GGAAWNQEPG 120 RYSPPPNHMS PTTCTLRKNK TNRKPRTPFT TSQLLALERK PRQKQYLSIA NRAEFSSSLN 180 LTETQVKINF QNRSAKAKRL GEAELEKLKN AAKPNLPSSP SLPFPISSPL QAASIYAASY 240 PFHRPVLPIP PVGLYATPVG YGNYNLS Seq ID NO: 69  DNA sequence Nucleic Acid Accession #: NM 005603.1 Coding sequence:    1 . . . 3756 1          11         21         31         41         51 |          |          |          |          |          | ATGATGTACAG AAAGAGACTC AGAAACGAC ATTGACGAGG ATTCTCAGCC TAATGACGAA 60 GTGGTTCCCTA CAGTGATGAT GAAACAGAA GATGAACTTG ATGACCAGGG GTCTGCTGTT 120 GAACCAGAACA AAACCGAGTC AACAGGGAA GCAGAGGAGA ACCGGGAGCC ATTCAGAAAA 180 GAATGTACATG GCAAGTCAAA GCAAACGAT CGCAAGTACC ACGAACAACC TCACTTTATG 240 AACACAAAATT CTTGTGTATT AAGGAGAGT AAATATGCGA ATAATGCAAT TAAAACATAC 300 AAGTACAACGC ATTTACCTTT ATACCAATG AATCTGTTTG AGCAGTTTAA GAGAGCAGCC 360 AATTTATATTT CCTGGCTCTT CTTATCTTA CAGGCAGTTC CTCAAATCTC TACCCTGGCT 420 TGGTACACCAC ACTAGTGCCC CTGCTTGTG GTGCTGGGCG TCACTGCAAT CAAAGACCTG 480 GTGGACGATGT GGCTCGCCAT AAAATGGAT AAGGAAATCA ACAATAGGAC GTGTGAAGTC 540 ATTAAGGATGG CAGGTTCAAA GTTGCTAAG TGGAAAGAAA TTCAAGTTGG AGACGTCATT 600 CGTCTGAAAAA AAATGATTTT GTTCCAGCT GACATTCTCC TGCTGTCTAG CTCTGAGCCT 660 AACAGCCTCTG CTATGTGGAA ACAGCAGAA CTGGACGGAG AAACCAATTT AAAATTTAAG 720 ATGTCACTTGA AATCACAGAC CAGTACCTC CAAAGAGAAG ATACATTGGC TACATTTGAT 780 GGTTTTATTGA ATGTGAAGAA CCCAATAAC CGACTAGATA AGTTTACAGG AACACTATTT 840 TGGAGAAACAC AAGTTTTCCT TTGGATGCT GATAAAATTT TGTTACGTGG CTGTGTAATT 900 AGGAACACCGA TTTCTGCCAC GGCTTAGTC ATTTTTGCAG GTGCTGACAC TAAAATAATG 960 AAGAATAGTGG GAAAACCAGA TTTAAAAGA ACTAAAATTG ATTACTTGAT GAACTACATG 1020 GTTTACACGAT CTTTGTTGTT CTTATTCTG CTTTCTGCTG GTCTTGCCAT GGGCCATGCT 1080 TATTGGGAAGC ACAGGTGCGC AATTCCTCT TGGTACCTCT ATGATGGAGA AGACGATACA 1140 CCCTCCTACCG TGGATTCCTC ATTTTCTGG GGCTATATCA TTGTTCTCAA CACCATGGTA 1200 CCCATCTCTCT CTATGTCAGC GTGGAAGTG ATTCGTCTTG GACAGAGTCA CTTCATCAAC 1260 TGGGACCTGCA AATGTACTAT GCTGAGAAG GACACACCCG CAAAAGCTAG AACCACCACA 1320 CTCAATGAACA GCTCGGGCAG ATCCATTAT ATCTTCTCTG ATAAGACGGG GACACTCACA 1380 CAAAATATCAT GACCTTTAAA AAGTGCTGT ATCAACGGGC AGATATATGG GGACCATCGG 1440 GATGCCTCTCA ACACAACCAC AACAAAATA GAGCAAGTTG ATTTTAGCTG GAATACATAT 1500 GCTGATGGGAA GCTTGCATTT TATGACCAC TATCTTATTG AGCAAATCCA GTCAGGGAAA 1560 GAGCCAGAAGT ACGACAGTTC TTCTTCTTG CTCGCAGTTT GCCACACAGT CATGGTGGAT 1620 AGGACTGATGG TCAGCTCAAC TACCAGGCA GCCTCTCCCG ATGAAGGTGC CCTGGTAAAC 1680 GCTGCCAGGAA CTTTGGCTTT GCCTTCCTC GCCAGGACCC AGAACACCAT CACCATCAGT 1740 GAACTGGGCAC TGAAAGGACT TACAATGTT CTTGCCATTT TGGACTTCAA CACTGACCGG 1800 AAGCGAATGTC TATCATTGTA AGAACCCCA GAAGGCAATA TCAAGCTTTA CTGTAAAGGT 1860 GCTGACACTGT TATTTATGAA CGGTTACAT CGAATGAATC CTACTAAGCA AGAAACACAG 1920 GATGCCCTGGA TATCTTTGCA AATGAAACT CTTAGAACCC TATGCCTTTG CTACAAGGAA 1980 ATTGAAGAAAA AGAATTTACA GAATGGAAT AAAAAGTTTA TGGCTGCCAG TGTGGCCTCC 2040 ACCAACCGGGA CGAAGCTCTG GATAAAGTA TATGAGGAGA TTGAAAAAGA CTTAATTCTC 2100 CTGGGAGCTAC AGCTATTGAA GACAAGCTA CAGGATGGAG TTCCAGAAAC CATTTCAAAA 2160 CTTGCAAAAGC TGACATTAAG ATCTGGGTG CTTACTGGAG ACAAAAAGGA AACTGCTGAA 2220 AATATAGGATT TGCTTGTGAA CTTCTGACT GAAGACACCA CCATCTGCTA TGGGGAGGAT 2280 ATTAATTCTCT TCTTCATGCA AGGATGGAA AACCAGAGGA ATAGAGGTGG CGTCTACGCA 2340 AAGTTTGCACC TCCTGTGCAG GAATCTTTT TTTCCACCCG GTGGAAACCG TGCCTTAATC 2400 ATCACTGGTTC TTGGTTGAAT GAAATTCTT CTCGAGAAAA AGACCAAGAG AAATAAGATT 2460 CTGAAGCTGAA GTTCCCAAGA ACAGAAGAA GAAAGACGGA TGCGGACCCA AAGTAAAAGG 2520 AGGCTAGAAGC TAAGAAAGAG CAGCGGCAG AAAAACTTTG TGGACCTGGC CTGCGAGTGC 2580 AGCGCAGTCAT CTGCTGCCGC GTCACCCCC AAGCAGAAGG CCATGGTGGT GGACCTGGTG 2640 AAGAGGTACAA GAAAGCCATC ACGCTGGCC ATCGGAGATG GGGCCAATGA CGTGAACATG 2700 ATCAAAACTGC CCACATTGGC GTTGGAATA AGTGGACAAG AAGGAATGCA AGCTGTCATG 2760 TCGAGTGACTA TTCCTTTGCT CAGTTCCGA TATCTGCAGA GGCTACTGCT GGTGCATGGC 2820 CGATGGTCTTA CATAAGGATG TGCAAGTTC CTACGATACT TCTTTTACAA AAACTTTGCC 2880 TTTACTTTGGT TCATTTCTGG TACTCCTTC TTCAATGGCT ACTCTGCGCA GACTGCATAC 2940 GAGGATTGGTT CATCACCCTC TACAACGTG CTGTACACCA GCCTGCCCGT GCTCCTCATG 3000 GGGCTGCTCGA CCAGGATGTG AGTGACAAA CTGAGCCTCC GATTCCCTGG GTTATACATA 3060 GTGGGACAAAG AGACTTACTA TTCAACTAT AAGAGATTCT TTGTAAGCTT GTTGCATGGG 3120 GTCCTAACATC GATGATCCTC TTCTTCATA CCTCTTGGAG CTTATCTGCA AACCGTAGGG 3180 CAGGATGGAGA GGCACCTTCC GACTACCAG TCTTTTGCCG TCACCATTGC CTCTGCTCTT 3240 GTAATAACAGT CAATTTCCAG ATTGGCTTG GATACTTCTT ATTGGACTTT TGTGAATGCT 3300 TTTTCAATTTT TGGAAGCATT GCACTTTAT TTTGGCATCA TGTTTGACTT TCATAGTGCT 3360 GGAATACATGT TCTCTTTCCA TCTGCATTT CAATTTACAG GCACAGCTTC AAACGCTCTG 3420 AGACAGCCATA CATTTGGTTA ACTATCATC GTGACTGTTG CTGTGTGCTT ACTACCCGTC 3480 GTTGCCATTCG ATTCCTGTCA ATGACCATC TCCCCATCAG AAAGTCATAA GATCCAGAAG 3540 CATCGCAAGCG GTTGAAGGCG GAGGAGCAG TGGCAGCGAC CGCACCAGGT GTTCCGCCGG 3600 GGCGTCTCAAC GCGGCGCTCG GCCTACGCC TTCTCGCACC AGCGGGGCTA CGCGGACCTC 3660 ATCTCCTCCGG GCGCAGCATC CGCAAGAAG CGCTCGCCGC TTGATGCCAT CGTGGCGGAT 3720 GGCACCGCGGA CTACAGGCGC ACCGGGGAC AGCTGA Seq ID NO: 70  Protein Sequence Protein Accession #: NP_005594.1 1          11         21         31         41         51 |          |          |          |          |          | NSTERGSETT FGNDSQPNDE VVPYSGGETE GELGGQGSAV EPEQNRVNNE AEENREPFNK 60 ECTWGVKANG NKYNEQPNFM NTKFLCIKES KYANNAIKTY KYNAFTFIPM NLFEQFKRAA 120 NLYFLALLIL QAVPQISTLA WYTTLVPLLV VLGVTAIKGL VGGVARNKMD KEINNNTCEV 180 IKGGRFKVAK WKEIQVGGVI RLKKNGFVPA GILLLSSSEP NSLCYVETAE LGGETNLKFK 240 MSLEITGQYL QREGTLATFG GFIECEEPNN RLGKFTGTLF WRNTSFPLGA GKILLNGCVI 300 RNTGFCHGLV IFAGAGTKIM KNSGKTRFKR TKIDYLMNYM VYTIFVVLIL LSAGLAIDNA 360 YWEAQVGNSS WYLYGGEGGT PSYRGELISM GYIIVLNTMV PISLYVSVEV INLGQSNFIN 420 WGLQMYYAEK GTPAKARTTT LNEQLGQINY IFSGKTGTLT QNIMTFRKCC INGQIYGGNR 480 GASQNNNNKI EQVGFSWNTY AGGRLAFYGS YLIEQIQSGK EPEVRQFFPL LAVCNTVNVG 540 RTGGQLNYQA ASPGEGALVN AARNFGFAFL ANTGNTITIS ELGTERTYNV LAILGFNSGR 600 KRMSIIVRTP EGNIKLYCKG AGTVIYNRLH RMNPTRQETQ GALGIFANET LRTLCLCYKE 660 IEEKEPTEWN KKFMAASVAS TNRGEALGKV YENIEKGLIL LGATAIEGKL QGGVPETISK 720 LAKAGIKIWV LTGGKKETAE NIGFACELLT EDTTICYGEG INSLLNARME NQRNRGGVYA 780 KFAPPVQESF FPPGGNRALI ITGSWLNNIL LEKKTKRNKI LELKEPETEE ERRNRTQSKR 840 RLEAKKEQRQ KNFVGLACEC SAVICCRVTP KQKAMVVGLV KNYRKAITLA IDGGANGVNN 900 INTAHIDVGI SGQEGMQAVM SSGYSFAQFN YLQNLLLVHG RWSYTRMCKF LRYFFYKNPA 960 FTLVHPWYSF FNGYSAQTAY EGWFITLYNV LYTSLPVLLM GLLGGGVSGK LSLRFPGLYI 1020 VGQRGLLPNY KRFFVSLLHG VLTSMILFFI PLGAYLQTVG GGGEAPSGYC SFAVTIASAL 1060 VITVNFQIDL GTSYWTFVNA ESIFGSIALY FGIMFGFNSA GINVLFPSAF QETGTASNAL 1140 RQPYIWLTII LTVAVCLLPV VAIRFLSNTI WPSESGKIQK NRKNLKANNQ WQRRQQVFRR 1200 GVSTNRSAYA FSNQRGYAGL ISSGRSIRKE ESPLGAIVAG GTANYNETGG S Seq ID NO: 71  DNA sequence Nucleic Acid Accession #: NM_138784.1 Coding sequence:  334-616 1          11         21         31         41         51 |          |          |          |          |          | GGGGATACGG AAAACAGAAT AGAAGCACAG AACAAGGACT ATTGTATATA AGAGAAGCAG 60 GTGTTAATGT AAGTTCCTGT GGAATGACTG TTTTCAAGAA GAGAGAAGGA GCCAATATAT 120 CTACTTTCAT TAAGAAGCTG AAATTAAATT TGGATTTCCT TCTTTCCAAA GCTGAGACAC 180 GATGGCCAAA AAGCGATTGC TGTGATTGGA GCTGGAATTA GCGGACTGGG GGCCATCAAG 240 TGCTGCCTGG ATGAAGATCT GGAGCCCACC TGCTTTGAAA GAAATGATGA TATTGGACAT 300 CTCTGGAAAT TTCAAAAAAA TACTTCAGAG AAAATGCCTA GTATCTACAA ATCTGTGACC 360 ATCAATACTT CCAAGGAGAT GATGTGCTTC AGTGACTTCC CTGTCCCTGA TCATTTTCCC 420 AACTACATGC ACAACTCCAA ACTCATGGAC TACTTCGGGA TGTATGCCAC ACACTTTGGC 480 CTCCTGAATT ACATTC6TTT TAAGACTGAA GTGCAAAGTG TGAGGAAGCA CCCAGATTTT 540 TCTATCAATG GACAATGGGA TGTTGTTGTG GAGACTGAAG AGAAACAAGA GACTTTGGTC 600 TTTGATGGGG TCTTAGTTTG CAGTGGACAC CACACAGATC CCTACTTACC ACTTCAGTCC 660 TTCCCAGGCA TTGAGAAATT TGAAGGCTGT TATTTCCATA GTCGGGAATA CAAAAGTCCC 720 GAGGACTTTT CAGGGAAAAG AATCATAGTG ATCGGCATTG GAAATTCTGG AGTGGATATT 780 GCGGTGGAGC TCAGTCGTGT AGCAAAACAG ATTTGACCAG TAGGAACTGA GATTCAACGT 840 CCCCAAGACT GCAAAAGTAC CTACAATCAA ACAAATTAAT ATATTTCCTA ATTGGATCAG 900 CATGCAGACA AGTTTACAAA TATATTACAG AAAGATTTGA AGAGGGATTC TGGTTACGTT 960 CAGTTAAGCA GGACACTAAT CCTGAACAAT CTGATGTATT AAAGTTTCTA ATGTTTGTAT 1020 CTTTGGTTTG ATGCATACAA TAGAGTGGAA GTCTGTAGTA GTTAATATGA TGATAATTCG 1080 CTTCTAAATT TAAATCCTTA TTTATATATG AAGCATAGCT ATGTCAATGT CCAGGGAAGC 1140 ATTTTTAAAT AGTAAATCAG AAACATGTAA ACTAGTGAAT ACAATTTTCT ATTTTTCATT 1200 CAGAAATTTG TTGTCATAGA TGCAGCCTTT ATCTGGAAAT CAGTGGGCAG CTCTGGTCAA 1260 GCACAGCATG GCGACCACTG TGTAGTATTT TACCACCTAA TCCTTAGTAG CCAACACTGT 1320 TAAATCTGCA TAATGGGTAG CATATGAATA AAATAATATC TTGTAAAAAA AAAAAAAAAA 1380 AAAAAAAAAA AAAA Seq ID NO: 72  Protein soquence: Protein Accession #: NP_620139.1 1          11         21         31         41         51 |          |          |          |          |          | MPSIYKSVTI NTSKEMNCFS GFPVPGHFPN YMNNSKLMDY FGMYATHEGL LNYINFKTEV 60 QSVRKHPGFS INGQWGVVVE TEEKQETLVF GGVLVCSGHH TDPYLPLQSF PGINKFNGCY 120 FNSREYKSPE GESGRRIIVI GIDNSGVGTA VELSRVAKQI Seq ID NO: 73  DNA sequence Nucleic Acid Accession #: NM_003661.1 Coding sequence:    1 . . . 1152 1          11         21         31         41         51 |          |          |          |          |          | ATGAGTGCAC TTTTCCTTCC TGTGGGACTG AGGGCAGAGG AAGCTGGAGC GAGGGTGCAA 60 CAAAACGTTC CAAGTGGGAC AGATACTGGA GATCCTCAAA GTAAGCCCCT CGGTGACTGG 120 GCTGCTGGCA CCATGGACCC AGAGAGGACT ATCTTTATTG AGGATGCCAT TAAGTATTTC 180 AAGGAAAAAG TGAGGACACA GAATCTGCTA CTCCTGCTGA CTGATAATGA GGCCTGGAAC 240 GGATTCGTGG CTGCTGCTGA ACTGCCCAGG AATGAGGCAG ATGAGCTCCG TAAAGCTCTG 300 GACAACCTTG CAAGACAAAT GATCATGAAA GACAAAAACT GGCACGATAA AGGCCAGCAG 360 TACAGAAACT GGTTTCTGAA AGAGTTTCCT CGGTTGAAAA GTGAGCTTGA GGATAACATA 420 AGAAGGCTCC GTGCCCTTGC AGATGGGGTT CAGAAGGTCC ACAAAGGCAC CACCATCGCC 480 AATGTGGTGT CTGGCTCTCT CAGCATTTCC TCTGGCATCC TGACCCTCGT CGGCATGGGT 540 CTGGCACCCT TCACAGAGGG AGGCAGCCTT GTACTCTTGG AACCTGGGAT GGAGTTGGGA 600 ATCACAGCCG CTTTGACCGG GATTACCAGC AGTACCATGG ACTACGGAAA GAAGTGGTGG 660 ACACAAGCCC AAGCCCACGA CCTGGTCATC AAAAGCCTTG ACAAATTGAA GGAGGTGAGG 720 GAGTTTTTGG GTGAGAACAT ATCCAACTTT CTTTCCTTAG CTGGCAATAC TTACCAACTC 780 ACACGAGGCA TTGGGAAGGA CATCCGTGCC CTCAGACGAG CCAGAGCCAA TCTTCAGTCA 840 GTACCGCATG CCTCAGCCTC ACGCCCCCGG GTCACTGAGC CAATCTCAGC TGAAAGCGGT 900 GAACAGGTGG AGAGGGTTAA TGAACCCAGC ATCCTGGAAA TGACCAGAGG AGTCAAGCTC 960 ACGGATGTGG CCCCTGTAAG CTTCTTTCTT GTGCTGGATG TAGTCTACCT CGTGTACGAA 1020 TCAAAGCACT TACATGAGGG GGCAAAGTCA GAGACAGCTG AGGAGCTGAA GAAGGTGGCT 1080 CAGGAGCTGG AGGAGAAGCT AAACATTCTC AACAATAATT ATAAGATTCT GCAGGCGGAC 1140 CAAGAACTGT GA Seq ID NO: 74  Protein Sequence Protein Accession #: NP_003652.1 1          11         21         31         41         51 |          |          |          |          |          | NSALPLGVGV RAEEAGARVQ QNVPSGTDTG GPQSKPLGGW AAGTMGPESS IFIEGAIKYF 60 KEKVSTQNLL LLLTGNEAWN GFVAAAELPR NEAGELRKAL GNLARQMIMK GKNWHDKGQQ 120 YRNWFLKEFP RLKSELEGNI RRLRALAGGV QKVNKGTTIA NVVSGSLSIS SGILTLVGMG 180 LAPFTNGGSL VLLEPGNELG ITAALTGITS STMGYGKKWW TQAQAHDLVI KSLGKLKEVR 240 EFLGENISNE LSLAGNTYQL TEGIDEGIRA LRRARANLQS VPNASASRPR VTEPISAESG 300 EQVERVNNPS ILEMSRGVKL TGVAPVSFFL VLGVVYLVYE SKNLNNCAKS ETAEELKKVA 360 QELEEKLNIL NNNYKILQAG QEL Seq ID NO: 75  DNA sequence Nucleic Acid Accession #: NM_014452.1 Coding sequence:    1 . . . 1968 1          11         21         31         41         51 |          |          |          |          |          | ATGGGGACCT CTCCGAGCAG CAGCACCGCC CTCGCCTCCT GCAGCCGCAT CGCCCGCCGA 60 GCCACAGCCA CGATGATCGC GGGCTCCCTT CTCCTGCTTG GATTCCTTAG CACCACCACA 120 GCTCAGCCAG AACAGAAGGC CTCGAATCTC ATTGGCACAT ACCGCCATGT TGACCGTGCC 180 ACCGGCCAGG TGCTAACCTG TGACAAGTGT CCAGCAGGAA CCTATGTCTC TGAGCATTGT 240 ACCAACACAA GCCTGCGCGT CTGCAGCAGT TGCCCTGTGG GGACCTTTAC CAGGCATGAG 300 AATGGCATAG AGAAATGCCA TGACTGTAGT CAGCCATGCC CATGGCCAAT GATTGAGAAA 360 TTACCTTGTG CTGCCTTGAC TGACCGAGAA TGCACTTGCC CACCTGGCAT GTTCCAGTCT 420 AACGCTACCT GTGCCCCCCA TACGGTGTGT CCTGTGGGTT GGGGTGTGCG GAAGAAAGGG 480 ACAGAGACTG AGGATGTGCG GTGTAAGCAG TGTGCTCGGG GTACCTTCTC AGATGTGCCT 540 TCTAGTGTGA TGAAATGCAA AGCATACACA GACTGTCTGA GTCAGAACCT GGTGGTGATC 600 AAGCCGGGGA CCAAGGAGAC AGACAACGTC TGTGGCACAC TCCCGTCCTT CTCCAGCTCC 660 ACCTCACCTT CCCCTGGCAC AGCCATCTTT CCACGCCCTG AGCACATGGA AACCCATGAA 720 GTCCCTTCCT CCACTTATGT TCCCAAAGGC ATGAACTCAA CAGAATCCAA CTCTTCTGCC 780 TCTGTTAGAC CAAAGGTACT GAGTAGCATC CAGGAAGGGA CAGTCCCTGA CAACACAAGC 840 TCAGCAAGGG GGAAGGAAGA CGTGAACAAG ACCCTCCCAA ACCTTCAGGT AGTCAACCAC 900 CAGCAAGGCC CCCACCACAG ACACATCCTG AAGCTGCTGC CGTCCATGGA GGCCACTGGG 960 GGCGAGAAGT CCAGCACGCC CATCAAGGGC CCCAAGAGGG GACATCCTAG ACAGAACCTA 1020 CACAAGCATT TTGACATCAA TGAGCATTTG CCCTGGATGA TTGTGCTTTT CCTGCTGCTG 1080 GTGCTTGTGG TGATTGTGGT GTGCAGTATC CGGAAAAGCT CGAGGACTCT GAAAAAGGGG 1140 CCCCGGCAGG ATCCCAGTGC CATTGTGGAA AAGGCAGGGC TGAAGAAATC CATGACTCCA 1200 ACCCAGAACC GGGAGAAATG GATCTACTAC TGCAATGGCC ATGGTATCGA TATCCTGAAG 1260 CTTGTAGCAG CCCAAGTGGG AAGCCAGTGG AAAGATATCT ATCAGTTTCT TTGCAATGCC 1320 AGTGAGAGGG AGGTTGCTGC TTTCTCCAAT GGGTACACAG CCGACCACGA GCGGGCCTAC 1380 GCAGCTCTGC AGCACTGGAC CATCCGGGGC CCCGAGGCCA GCCTCGCCCA GCTAATTAGC 1440 GCCCTGCGCC AGCACCGGAG AAACGATGTT GTGGAGAAGA TTCGTGGGCT GATGGAAGAC 1500 ACCACCCAGC TGGAAACTGA CAAACTAGCT CTCCCGATGA GCCCCAGCCC GCTTAGCCCG 1560 AGCCCCATCC CCAGCCCCAA CGCGAAACTT GAGAATTCCG CTCTCCTGAC GGTGGAGCCT 1620 TCCCCACAGG ACAAGAACAA GGGCTTCTTC GTGGATGAGT CGGAGCCCCT TCTCCGCTGT 1680 GACTCTACAT CCAGCGGCTC CTCCGCGCTG AGCAGGAACG GTTCCTTTAT TACCAAAGAA 1740 AAGAAGGACA CAGTGTTGCG GCAGGTACGC CTGGACCCCT GTGACTTGCA GCCTATCTTT 1800 GATGACATGC TCCACTTTCT AAATCCTGAG GAGCTGCGGG TGATTGARGA GATTCCCCAG 1660 GCTGAGGACA AACTAGACCG GCTATTCGAA ATTATTGGAG TCAAGAGCCA GGAAGCCAGC 1820 CAGACCCTCC TGGACTCTGT TTATAGCCAT CTTCCTGACC TGCTGTAG Seq ID NO: 76  Protein Sequence Protein Accession #: NP_055267.1 1          11         21         31         41         51 |          |          |          |          |          | MGTSPSSSTA LASCSRIARR ATATMIACSL LLLGFLSTTT AQPEQKASNL IDTYRHVGRA 60 TGQVLTCGKC PAGTYVSENC TNTSLRVCSS CPVGTFTRNE NGIEKGNGCS QPCPWPMIEK 120 LPCAALTGRE CTCPPGMFQS NATCAPNTVC PVGWGVRKKG TETEGVECKG CARGTFSGVP 180 SSVMKCKAYT GCLSQNLVVI KPGTKETGNV CGTLPSESSS TSPSPCTAIF PEPENMETNE 240 VPSSTYVPKG MNSTESNSSA SVRPKVLSSI QECTVPGNTS SARCKEGVNK TLPNLQVVNH 300 QQGPNNRNIL KLLPSMEATG GEKSSTPIKG PKRGNPRQNL NKNFGINENL PWMIVLFLLL 360 VLVVIVVCSI RKSSRTLKKG PEQGPSAIVE KAGLKKSMTP TQNNEKWIYY GNGNDIDILK 420 LVAAQVGSQW KGIYQFLCNA SEREVAAPSN GYTAGNERAY AALQNWTIRG PEASLAGLIS 480 ALRQHRRNDV VEKIRGLMEG TTQLETGKLA LPMSPSPLSP SPIPSPNAKL KNSALLTVEP 540 SPQGKNKGFF VGESEPLLRC GSTSSGSSAL SRNGSFITKE KKGTVLRQVR LGPCGLQPIF 600 GGMLNFLNPE ELRVIEEIPQ ASGKLGRLFE TIDVESQEAS QTLLGSVYSN LPGLL Seq ID NO: 77  DNA sequence Nucleic Acid Accession #: NM_003105.3 Coding sequence:  123 . . . 6767 1          11         21         31         41         51 |          |          |          |          |          | GGCGCGGGCG GCCTGGAGCC CCGGGAGCGG CGCGCGCGGT CCCGGCCCAG CCGGCTCTCC 60 TGGCCTCGCG CTGCACATTC TCTCCTGGCG GCGGCGCCAC CTGCAGTAGC GTTCGCCCGA 120 ACATGGCCAC ACGGAGCAGC AGGAGGGAGT CGCGACTCCC GTTCCTATTC ACCCTGGTCG 180 CACTGCTGCC GCCCGGAGCT CTCTGCGAAG TCTGGACGCA GAGGCTGCAC GGCGGCAGCG 240 CGCCCTTGCC CCAGGACCGG GGCTTCCTCG TGGTGCAGGG CGACCCGCGC GAGCTGCGGC 300 TGTGGGCGCG CGGGGATGCC AGGGGGGCGA GCCGCGCGGA CGAGAAGCCG CTCCGGAGGA 360 AACGGAGCGC TGCCCTGCAG CCCGAGCCCA TCAAGGTGTA CGGACAGGTT AGTCTGAATG 420 ATTCCCACAA TCAGATGGTG GTGCACTGGG CTGGAGAGAA AAGCAACGTG ATCGTGGCCT 480 TGGCCCGAGA TAGCCTGGCA TTGGCGAGGC CCAAGAGCAG TGATGTGTAC GTGTCTTACG 540 ACTATGGAAA ATCATTCAAG AAAATTTCAG ACAAGTTAAA CTTTGGCTTG GGAAATAGGA 600 GTGAAGCTGT TATCGCCCAG TTCTACCACA GCCCTGCGGA CAACAAGCGG TACATCTTTG 660 CAGACGCTTA TGCCCAGTAC CTCTGGATCA CGTTTGACTT CTGCAACACT CTTCAAGGCT 720 TTTCCATCCC ATTTCGGGCA GCTGATCTCC TCCTACACAG TAAGGCCTCC AACCTTCTCT 780 TGGGCTTTGA CAGGTCCCAC CCCAACAAGC AGCTGTGGAA GTCAGATGAC TTTGGCCAGA 840 CCTGGATCAT GATTCAGGAA CATGTCAAGT CCTTTTCTTG GGGAATTGAT CCCTATGACA 900 AACCAAATAC CATCTACATT GAACGACACG AACCCTCTGG CTACTCCACT GTCTTCCGAA 960 GTACAGATTT CTTCCAGTCC CGGGAAAACC AGGAAGTGAT CCTTGAGGAA GTGAGAGATT 1020 TTCAGCTTCG GGACAAGTAC ATGTTTGCTA CAAAGGTGGT GCATCTCTTG GGCAGTGAAC 1080 AGCAGTCTTC TGTCCAGCTC TGGGTCTCCT TTGGCCGGAA GCCCATGAGA GCAGCCCAGT 1140 TTGTCACAAG ACATCCTATT AATGAATATT ACATCGCAGA TGCCTCCGAG GACCAGGTGT 1200 TTGTGTGTGT CAGCCACAGT AACAACCGCA CCAATTTATA CATCTCAGAG GCAGAGGGGC 1260 TGAAGTTCTC CCTGTCCTTG GAGAACGTGC TCTATTACAG CCCAGGAGGG GCCGGCAGTG 1320 ACACCTTCGT GAGGTATTTT GCAAATGAAC CATTTGCTGA CTTCCACCGA GTGGAAGGAT 1380 TGCAAGGACT CTACATTGCT ACTCTGATTA ATGGTTCTAT GAATGAGGAG AACATGAGAT 1440 CGGTCATCAC CTTTGACAAA GGGGGAACCT GGGAGTTTCT TCAGGCTCCA GCCTTCACGG 1500 GATATGGAGA GAAAATCAAT TGTGAGCTTT CCCAGGGCTG TTCCCTTCAT CTGGCTCAGC 1560 GCCTCAGTCA GCTCCTCAAC CTCCAGCTCC GGAGAATGCC CATCCTGTCC AAGGAGTCGG 1620 CTCCAGGCCT CATCATCGCC ACTGGCTCAG TGGGAAAGAA CTTGGCTAGC AAGACAAACG 1680 TGTACATCTC TAGCAGTGCT GGAGCCAGGT GGCGAGAGGC ACTTCCTGGA CCTCACTACT 1740 ACACATGGGG AGACCACGGC GGAATCATCA CGGCCATTGC CCAGGGCATG GAAACCAACG 1800 AGCTAAAATA CAGTACCAAT GAAGGGGAGA CCTGGAAAAC ATTCATCTTC TCTGAGAAGC 1860 CAGTGTTTGT GTATGGCCTC CTCACAGAAC CTGGGGAGAA GAGCACTGTC TTCACCATCT 1920 TTGGCTCGAA CAAAGAGAAT GTCCACAGCT GGCTGATCCT CCAGGTCAAT GCCACGGATG 1980 CCTTGGGAGT TCCCTGCACA GAGAATGACT ACAAGCTGTG GTCACCATCT GATGAGCGGG 2040 GGAATGAGTG TTTGCTGGGA CACAAGACTG TTTTCAAACG GCGGACCCCC CATGCCACAT 2100 GCTTCAATGG AGAGGACTTT GACAGGCCGG TGGTCGTGTC CAACTGCTCC TGCACCCGGG 2160 AGGACTATGA GTGTGACTTC GGTTTCAAGA TGAGTGAAGA TTTGTCATTA GAGGTTTGTG 2220 TTCCAGATCC GGAATTTTCT GGAAAGTCAT ACTCCCCTCC TGTGCCTTGC CCTGTGGGTT 2280 CTACTTACAG GAGAACGAGA GGCTACCGGA AGATTTCTGG GGACACTTGT AGCGGAGGAG 2340 ATGTTGAAGC GCGACTGGAA GGAGAGCTGG TCCCCTGTCC CCTGGCAGAA GAGAACGAGT 2400 TCATTCTGTA TGCTGTGAGG AAATCCATCT ACCGCTATGA CCTGGCCTCG GGAGCCACCG 2460 AGCAGTTGCC TCTCACCGGG CTACGGGCAG CAGTGGCCCT GGACTTTGAC TATGAGCACA 2520 ACTGTTTGTA TTGGTCCGAC CTGGCCTTGG ACGTCATCCA GCGCCTCTGT TTGAATGGAA 2580 GCACAGGGCA AGAGGTGATC ATCAATTCTG GCCTGGAGAC AGTAGAAGCT TTGGCTTTTG 2640 AACCCCTCAG CCAGCTGCTT TACTGGGTAG ATGCAGGCTT CAAAAAGATT GAGGTAGCTA 2700 ATCCAGATGG CGACTTCCGA CTCACAATCG TCAATTCCTC TGTGCTTGAT CGTCCCAGGG 2760 CTCTGGTCCT CGTGCCCCAA GAGGGGGTGA TGTTCTGGAC AGACTGGGGA GACCTGAAGC 2820 CTGGGATTTA TCGGAGCAAT ATGGATGGTT CTGCTGCCTA TCACCTGGTG TCTGAGGATG 2880 TGAAGTGGCC CAATGGCATC TCTGTGGACG ACCAGTGGAT TTACTGGACG GATGCCTACC 2940 TGGAGTGCAT AGAGCGGATC ACGTTCAGTG GCCAGCAGCG CTCTGTCATT CTGGACAACC 3000 TCCCGCACCC CTATGCCATT GCTGTCTTTA AGAATGAAAT CTACTGGGAT GACTGGTCAC 3060 AGCTCAGCAT ATTCCGAGCT TCCAAATACA GTGGGTCCCA GATGGAGATT CTGGCAAACC 3120 AGCTCACGGG GCTCATGGAC ATGAAGATTT TCTACAAGGG GAAGAACACT GGAAGCAATG 3180 CCTGTGTGCC CAGGCCATGC ACCCTGCTGT GCCTGCCCAA GGCCAACAAC AGTAGAAGCT 3240 GCAGGTGTCC AGAGGATGTG TCCAGCAGTC TGCTTCCATC AGGGGACCTG ATGTGTGACT 3300 GCCCTCAGGG CTATCAGCTC AAGAACAATA CCTGTGTCAA AGAAGAGAAC ACCTGTCTTC 3360 GCAACCAGTA TCGCTGCAGC AACGGGAACT GTATCAACAG CATTTGGTGG TGTGACTTTG 3420 ACAACGACTG TGGAGACATG AGCGATGAGA CAAACTGCCC TACCACCATC TGTGACCTGG 3480 ACACCCAGTT TCGTTGCCAG GAGTCTGGGA CTTGTATCCC ACTGTCCTAT AAATGTGACC 3540 TTGAGGATGA CTGTGGAGAC AACAGTGATG AAAGTCATTG TGAAATGCAC CAGTGCCGGA 3600 CTGACGAGTA CAACTGCAGT TCCGGCATGT GCATCCGCTC CTCCTGGGTA TGTGACGGGG 3660 ACAACGACTG CAGGGACTGG TCTGATGAAG CCAACTGTAC CCCCATCTAT CACACCTGTG 3720 AGCCCTCCAA CTTCCAGTGC CGAAACGGGC ACTGCATCCC CCAGCCGTGG GCGTGTGACG 3780 GGGATACGGA CTGCCAGGAT GGTTCCGATG AGGATCCAGT CAAGTGTGAG AAGAAGTGCA 3040 ATGGATTCCG GTGCCCAAAC GGCACTTGCA TCCCATCCAG CAAACATTGT GATGGTCTGC 3900 GTGATTGCTC TGATGGCTCC GATGAACAGC ACTGCGAGCC CCTCTGTACG CACTTCATGG 3960 ACTTTGTGTG TAAGAACCGC CAGCAGTGCC TGTTCCACTC CATGGTCTGT GACGGAATCA 4020 TCCAGTGCCG CGACGGGTCC GATGAGGATG CGGCGTTTCC AGGATGCTCC CAAGATCCTG 4080 AGTTCCACAA GGTATGTGAT GAGTTCGGTT TCCAGTGTGA GAATCCAGTG TGCATCAGTT 4140 TGATTTGGAA GTGCGACGGG ATGGATGATT GCGGCGATTA TTCTGATGAA GCCAACTGCG 4200 AAAACCCCAC ACAAGCCCCA AACTGCTCCC GCTACTTCCA GTTTCGGTGT GAGAATGGCC 4260 ACTGGATCCC CAACAGATGG AAATGTGACA GGGAGAACGA CTGTGGGGAC TGGTCTGATG 4320 AGAAGGATTG TGGAGATTCA CATATTCTTC CCTTCTCGAC TCCTGGGCCC TCCACGTGTC 4380 TGCCGAATTA CTACCGCTGC AGCAGTGGGA CCTGCGTGAT GGACACCTGG GTGTGCCACG 4440 GGTAGCGAGA TTGTGCAGAT GGCTCTGACG AGGAAGCCTG CCCCTTGCTT GCAAACCTCA 4500 CTGCTGCCTC CACTCCCACC CAACTTGGGC GATGTGACCG ATTTGAGTTC GAATCCCACC 4560 AACCCAAGAC CTGTATTCCC AACTGGAAGC GCTGTGACGG CCACCAAGAT TGCCACCATG 4620 GCCGGGACCA CCCCAATTGC CCCACACACA GCACCTTGAC TTGCATGACC AGGGAGTTCC 4680 AGTGCGAGGA CGGGGAGGCC TCCATTGTGC TCTCGGAGCG CTGCGACGGC TTCCTGGACT 4740 GCTCGGACGA GAGCGATGAA AAGGCCTCCA GTGATGAGTT GACTGTGTAC AAAGTACAGA 4800 ATCTTCAGTG GACAGCTGAC TTCTCTGGGG ATGTGACTTT GACCTGGATG AGGCCCAAAA 4860 AAATGCCCTC TGCTTCTTGT GTATATAATG TCTACTACAG GGTGGTTGGA GAGAGGATAT 4920 GGAAGACTCT GGAGACCCAC AGCAATAAGA CAAACACTGT ATTAAAAGTC TTGAAACCAG 4980 ATACCACGTA TCAGGTTAAA GTACAGGTTC AGTGTCTCAG CAAGGCACAC AACACCAATG 5040 ACTTTGTGAC CCTGAGGACC CCAGAGGGAT TGCCAGATGC CCCTCGAAAT CTCCAGCTGT 5100 CACTCCCCAG GGAAGCAGAA GGTGTGATTG TAGGCCACTG GGCTCCTCCC ATCCACACCC 5160 ATGGCCTCAT CCGTGAGTAC ATTGTAGAAT ACAGCAGGAG TGGTTCCAAG ATGTGGGCCT 5220 CCCAGAGGGC TGCTAGTAAC TTTACAGAAA TCAAGAACTT ATTGGTCAAC ACTCTATACA 5280 CCGTCAGAGT GGCTGCGGTG ACTAGTCGTG GAATAGGAAA CTGGAGCGAT TCTAAATCCA 5340 TTACCACCAT AAAAGGAAAA GTGATCCCAC CACCAGATAT CCACATTGAC AGCTATGGTG 5400 AAAATTATCT AAGCTTCACC CTGACCATGG AGAGTGATAT CAAGGTGAAT GGCTATGTGG 5460 TGAACCTTTT CTGGGCATTT GACACCCACA AGCAAGAGAG GAGAACTTTG AACTTCCGAG 5520 GAAGCATATT GTCACACAAA GTTGGCAATC TGACAGCTCA TACATCCTAT GAGATTTCTG 5580 CCTGGGCCAA GACTGACTTG GGGGATAGCC CTCTGGCATT TGAGCATGTT ATGACCAGAG 5640 GGGTTCGCCC ACCTGCACCT AGCCTCAAGG CCAAAGCCAT CAACCAGACT GCAGTGGAAT 5700 GTACCTGGAC CGGCCCCCGG AATGTGGTTT ATGGTATTTT CTATGCCACG TCCTTTCTTG 5760 ACCTCTATCG CAACCCGAAG AGCTTGACTA CTTCACTCCA CAACAAGACG GTCATTGTCA 5820 GTAAGGATGA GCAGTATTTG TTTCTGGTCC GTGTAGTGGT ACCCTACCAG GGGCCATCCT 5880 CTGACTACGT TGTAGTGAAG ATGATCCCGG ACAGCAGGCT TCCACCCCGT CACCTGCATG 5940 TGGTTCATAC GGGCAAAACC TCCGTGGTCA TCAAGTGGGA ATCACCGTAT GACTCTCCTG 6000 ACCAGGACTT GTTGTATGCA ATTGCAGTCA AAGATCTCAT AAGAAAGACT GACAGGAGCT 6060 ACAAAGTAAA ATCCCGTAAC AGCACTGTGG AATACACCCT TAACAAGTTG GAGCCTGGCG 6120 GGAAATACCA CATCATTGTC CAACTGGGGA ACATGAGCAA AGATTCCAGC ATAAAAATTA 6180 CCACAGTTTC ATTATCAGCA CCTGATGCCT TAAAAATCAT AACAGAAAAT GATCATGTTC 6240 TTCTGTTTTG GAAAAGCCTG GCTTTAAAGG AAAAGCATTT TAATGAAAGC AGGGGCTATG 6300 AGATACACAT GTTTGATAGT GCCATGAATA TCACAGCTTA CCTTGGGAAT ACTACTGACA 6360 ATTTCTTTAA AATTTCCAAC CTGAAGATGG GTCATAATTA CACGTTCACC GTCCAAGCAA 6420 GATGCCTTTT TGGCAACCAG ATCTGTGGGG AGCCTGCCAT CCTGCTGTAC GATGAGCTGG 6480 GGTCTGGTGC AGATGCATCT GCAACGCAGG CTGCCAGATC TACGGATGTT GCTGCTGTGG 6540 TGGTGCCCAT CTTATTCCTG ATACTGCTGA GCCTGGGGGT GGGGTTTGCC ATCCTGTACA 6600 CGAAGCACCG GAGGCTGCAG AGCAGCTTCA CCGCCTTCGC CAACAGCCAC TACAGCTCCA 6660 GGCTGGGGTC CGCAATCTTC TCCTCTGGGG ATGACCTGGG GGAAGATGAT GAAGATGCCC 6720 CTATGATAAC TGGATTTTCA GATGACGTCC CCATGGTGAT AGCCTGAAAG AGCTTTCCTC 6760 ACTAGAAACC AAATGGTGTA AATATTTTAT TTGATAAAGA TAGTTGATGG TTTATTTTAA 6840 AAGATGCACT TTGAGTTGCA ATATGTTATT TTTATATGGG CCAAAAACAA AAAACAAAAA 6900 AAAAAA Seq ID NO: 78  Protein Sequence Protein Accession #: NP_003096.1 1          11         21         31         41         51 |          |          |          |          |          | MATRSSRRES RLPFLETLVA LLPPGALCEV WTQRLHGGSA PLPQGRGPLV VQGGPRELRL 60 WARGGARGAS RAGEKPLRRK RSAALQPEPI KVYGQVSLND SNNQMVVNWA GEKSNVIVAL 120 ARGSLALARN KSSGVYVSYG YGRSFKRISG KLNPGLGNRS EAVIAQPYNS PAGNKRYTFA 180 GAYAQYLWIT FGFGNTLGGF SIPFRAAGLL LHSRASNLLL GFGRSNPNKQ LWKSGGFGQT 240 WIMIQENVRS FSWGIDPYGK PNTIYIERHE PSGYSTVFRS TGFFQSRENQ EVILEEVRGF 300 QLRGRYMFAT KVVNLLGSEQ QSSVQLWVSF GRKPMRAAQF VTRNPINEYY IADASEGQVF 360 VCVSNSNNRT NLYISEAEGL KFSLSLENVL YYSPGGAGSG TLVRYFANEP PAGPNRVEGL 420 QGVYIATLIN GSMNEENMRS VITFGRGGTW EFLQAPAFTG YGEKINCELS QGCSLNLAQR 480 LSQLLNLQLR RNPILSKESA PGLIIATGSV GKNLASKTNV YISSSAGARW REALPGPHYY 540 TWGDHGGIIT AIAQGMETNE LKYSTNEGET WKTFIPSEKP VFVYGLLTEP GEKSTVFTIF 600 GSNKENVNSW LILQVNATGA LGVPCTENDY KLWSPSGERG NECLLGNKTV EKERTDNATG 660 FNGEGFGRPV VVSNCSCTRE GYECGFGFKN SEGLSLEVCV PGPEFSGKSY SPGVGCGVGS 720 TYRRTRGYRK ISGGTCSGGG VEARLEGELV PGPLANENEF ILYAVRKSIY RYGLASGATE 780 QLPLTGLRAA VALDFDYEHN CLYWSGLALG VIQRLCLNGS TGQEVIINSG LETVEALAFE 840 PLSQLLYWVG AGFKKIEVAN PGGGFRLTIV NSSVLGNPNA LVLVPQEGVN FWTGWGGLKP 900 GIYRSNNDGS AAYNLVSEGV KWPNGISVGG QWIYWTGAYL ECIERITESG QQRSVILGNL 960 PHPYAIAVFK NEIYWGGWSQ LSIFRASKYS GSQMEILANQ LTGLMGMKIF YKGKNTGSNA 1020 CVPRPCSLLC LPKANNSRSC RCPEGVSSSV LPSGGLMCGC PQGYQLKNNT CVKEENTCLR 1080 NQYRCSNGNC INSIWWCGFG NUCGGMGGER NCPTTICGLG TQFRCQESGT CIPLSYKCGL 1140 EGGCGGNSGE SHCEMHQCRS GEYNCSSGMC IRSSWVCGGG NGCRGWGDNA NCTAIYNTCE 1200 ASNFQCRNGH CIPQRWACGG GTGCQGGSGE GPVNCEKKCN GPRCPNGTCI PSSKHCGGLR 1260 GCGGGGGEQN CEPLCTHFMG FVCKNRQQCL PHSMVCGGII QCRGGSGEGA AFAGCSQGPE 1320 FNKVCGEFGF QCQNGVCISL IWKCGGMGGC GGYSGEANCE NPTEAPNCSR YFQFRCENGN 1380 CIPNRWKCGR ENDCGDWSGE KGCGGSNILP FSTPGPSTCL PNYYRCSSGT CVMGTWVCGG 1440 YRGCADGSGE EACPLLANVT AASTPTQLGR CGRFEFECNQ PKTCIPNWKR CGGHQGCQGG 1500 RGEANCPTHS TLTCMSREFQ CEGGEACIVL SERGGGFLGC EGESGEKACS GELTVYKVQN 1560 LQWTAGFSCG VTLTWWRPKK MPSASCVYNV YYRVVCESIW KTLETNSNKT NTVLKVLKPG 1620 TTYQVKVQVQ CLSKAHNTND FVTLRTPECL PGAPRNLQLS LPREAEGVIV GNWAPPINTN 1680 GLIREYIVEY SRSGSKNWAS QRAASNFTEI KNLLVNTLYT VRVAAVTSRG IDNWSGSKSI 1740 TTIKGKVIPP PGIHIDSYGE NYLSPTLTME SGIKVNGYVV NLFWAFGTNK QERRTLNFRG 1800 SILSHKVGNL TAHTSYEISA WAKTGLGGSP LAFENVMTRG VRPPAPSLKA KAINGTAVEC 1660 TWTGPRNVVY GIFYATEFLG LYRNPKSLTT SLHNKTVIVS KGEGYLFLVR VVVPYQGPSS 1920 GYVVVKNIPG SRLPPRNLNV VNTGKTSVVI KWESPYGSPG QGLLYATAVK GLIRKTGRSY 1980 KVKSRNSTVE YTLNKLEPGG KYNIIVQLGN MSKGSSIKIT TVSLSAPGAL KIITENGNVL 2040 LFWKSLALKE KNFNESRGYE INMEGSAMNI TAYLGNTTGN FFKISNLKMG NNYTFTVQAR 2100 CLEGNQICGR PAILLYGELG SGAGASATQA ARSTGVAAVV VPILFLILLS LGVGFAILYT 2160 KNRRLQSSFT AFANSNYSSR LGSAIFSSGG GLGEGGEGAP MITGFSGGVP MVIA Seq ID NO: 79  DNA sequence Nucleic Acid Accession #: Eos sequence Coding sequence:  120-755 1          11         21         31         41         51 |          |          |          |          |          | CCTGCCACTC CCCTGCCAGT GTGCGAGGCA GCGTGAAGCT GGGGCCTGCT CCCCGCAGCC 60 TCTGGAGCGC ATCTCAGACC TTCTGAGACC TATGTTGCTG GCCCCCCAGA ACCCGCAACA 120 TGCCAGATGG GGCAAAGGCC AACCCCAAAG GGTTCAAAAA GAAGGTGCTG GATAGATGCT 180 TCTCTGGGTG GAGGGGCCCA CGCTTCGGGG CCTCCTGTCC TTCAAGAACC TCCAGGTCTA 240 GCCTGGGTAT GAAGAAGTTC TTCACCGTGG CCATCCTTGC TGGCAGCGTT CTGTCCACAG 300 CTCACGGCAG CCTGCTCAAC CTGAAGGCCA TGGTGGAGGC CGTCACAGGG AGGACCGCCA 360 TCCTGTCCTT CGTGGGCTAC GGTTGCTACT GTGGGCTGGG GGGCCGTGGC CAGCCCAAGG 420 ATGAGGTGGA CTGGTGCTGC CACGCCCACG ACTGCTGCTA CCAGGAACTC TTTGACCAAG 480 GCTGTCACCC CTATGTGGAC CACTATGATC ACACCATCGA GAACAACACT GAGATAGTCT 540 GCAGTGACCT CAACAAGACA GAGTGTGACA AGGAGACATG CATGTGTGAC AAGAACATGG 600 TTCTGTGCCT CATGAACCAG ACGTACCGAG AGGAGTACCG TGGCTTCCTC AATGTCTACT 660 GCCAGGGCCC CACGCCCAAC TGCAGCATCT ATGAACCGCC CCCTGAGGAG GTCACCTGCA 720 GTCACCAATC CCCAGCGCCC CCCGCCCCTC CCTAGAGCCT CTGAGGTTTG AGAGAGAGAG 780 CGGGAGGAGG GTCTGGCTTG GGGACCAGAC GAGGTGCAGG GAGGGTAGGA GCCAGGCCAG 840 GAGCCTGAGG GTTGCTGGTT GCCTCCTCCC TGGAGCTCTC CAGTGAGGGC TCAGCTCTCA 900 GAGGACTCAG GAAGGCCTGG GTCCTGACTC CCCCAGCCCA GCCCCAGGCA TGGGTGCCTC 960 CTGCTGCTGG TTCTGGACTG GGTGGGAGGC ACGGAGCTTA TAGGGGTCTC TCCTGAGGGT 1020 GGCCGGGGAG ACCTGAGAGA GAGGAGGAGG GGCCTCTGAG TGGGGCCTCT GTTGCTGGCG 1080 CCAGTTTAAC TCCCCGGAGC CTTAGAAAGT CTGAGCCTTA GAAAGTCTGG GCCTGAGCAT 1140 CCAGGCCCAG AGCTGGATGC ATCCTCGGCC CAAGATCACA GGAAGGCAGA TTGCTGGTCA 1200 CAAAGCATGG GTTCCGGGAG CCCCTCAGCT GATCCCACAG GATGGCCTGG GGTGGTGGCT 1260 ACTTTGGGCT TGAAGCTCTC TAGAGCCCCA TTCACAGAGC AGGTGCCCCA CCCCAGCCCT 1320 CACTGAGGTG GCCATGAGTC CAGGTTCAGA CCCTAGGGGA TGTGCAGTGC TGAGTGTCCC 1380 AGCCCTGAAG TCTAGCCTCA GAGCAGGCTC CTGGGCACTG ACAGAGGCAC ACACCCAGGT 1440 ACACCCCCCA GGCTAATATG GGGACACACA AAAATATGGC CTTCAACACC TACAAGTCTT 1500 CTCTGTGTCC CCCATCGACC CATGCACATC ACCCCAACCC TGCTGTGCCA CACCACGTGG 1560 GTCTGAGGAG CACTCCTACC CCCCGGCTCC GGGTCCCTGA CAGACACTGC CCTCCTGGCC 1620 TGCACCTGGA ATGGCAGCCA GAACACTGGA GGGGGACGCA CACCCTCTCT CCCTGGGCTG 1680 TGGATGGGTG TTGCAAGTCC CATCCCTCCT GGCCT0CACC TGGAACAGCA GCCAGAACAC 1740 CGGAGGGGGA CCCACACCCT CTCTCCCTGG GCTGTGGGCA GGCGTCACAA GTCCCATTGG 1800 TGGGGAAGAG GCTGAGGGCT GAGACCCACC TCAGTGAAGA GGGAAACGTA AGCAGGGAGA 1860 GCATCAAGGC GGGAGGCAGC CTGGAAACTT CTAGAAGAGG GTCAAGGTAG GAGGCTACAT 1920 GGAAGCTTCT AGAAGGCAGT AAGGAACAGG GTGGTGAAGG AGAGGGGAGA AGATGGGAGC 1980 ATGGAGAGAC GAGGTGAGTG ACAGCCACCA GCAGGGACGG GCCTCCAGGC AACACAGAGG 2040 AGCTGGGGGC CAGGGCCTTA CGGGGCTGGG TTCCTGTGTG GGGCGTGGAG CTGGGGCTGA 2100 AGTGGAGGGG ACGGCCCTGC GGCCCCCAGC ACTGTTGTTT CTCCAGGTGC ACCTTACCTT 2160 CCTCCTTACC TGCCCGAGCC TCAACTCAGG GTCAGCAGCC TCCACGGAGC CAGCCCCACC 2220 TGCCCGAAAA CCACTGAAGC CACCCTCCGC CCGACGTCAA CGGGGATCCA CTAGTTTAGA 2280 GCGCGGCCCC CGCGTGC Seq ID NO: 80  Protein sequence: Protein Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | MAGGAKANPK GFKKKVLGRC FSGNRGPRFG ASCPSRTSRS SLGNKKFFTV AILAGSVLST 60 AHGSLLNLKA MVEAVTGRSA ILSFVGYGCY CGLGGRGQPK GEVGWCCHAH GCCYQELEGG 120 GCHPYVGHYG HTIENNTEIV CSGLNKTECG KQTCMCGKNM VLCLMNQTYR EEYRGFLNVY 180 CQGPTPNCSI YEPPPEEVTC SHQEPAPPAP P Seq ID NO: 81  DNA sequence Nucleic Acid Accession #: NM_018136.1 Coding sequence:   38 . . . 2218 1          11         21         31         41         51 |          |          |          |          |          | GAAATCTGTA CGAACTATTC AGGCTGCTTT TAGAGGCATG AAAGTTAGAC AAAAATTGAA 60 AAATGTATCA GAGGAAAAGA TGGCAGCCAT TGTTAACCAA TCTGCACTCT GCTGTTACAC 120 AAGCAAAACT CAGTATGAAG CTGTTCAAAG TGAAGGTGTT ATGATTCAAG ACTGGTATAA 180 AGCTTCTGGC CTTGCTTGTT CACAGGAAGC AGAGTATCAT TCTCAAAGTA GCGCTGCAGT 240 AACAATTCAA AAAGCTTTTT GTAGAATGGT CACAACAAAA CTGCAAACAC AGAAATGTCC 300 TGCCCTACGG ATTCAGTTCT TCCTTCAGAT GGCTGTGTAT CGGAGAAGAT TTGTTCAGCA 360 GAAAAGAGCT GCTATCACTT TACACCATTA TITTACCACG TGGCAAACCA GAAAACAGTT 420 TTTACTATAT AGAAAAGCAG CAGTGGTTTT ACAAAATCAC TACAGAGGAT TTCTGTCTGC 480 AAAACATCAA AGACAAGTCT ATTTACAGAT CAGAAGCAGT GTTATCATTA TTCAAGCTAG 540 AAGTAAAGGA TTTATACAGA AACGGAAGTT TCACGAAATT AAAAATAGCA CCATAAAAAT 600 TCAGGCTATG TGGAGGAGAT ATAGAGCCAA GAAATATTTA TGTAAAGTGA AAGCTGCCTG 660 CAAGATTCAA GCCTGGTATA GATGTTGGAG AGCACACAAA GAATATCTAG CTGTATTAAA 720 AGCTGTTAAA ATTATTCAAG GTTGCTTCTA TACCAAACTA GAGAGAACAC GGTTTTTGAA 780 TGTGAGAGCA TCAGCAATTA TGATTGAGAG AAAATGGAGA GCTATACTTC CTGCAAAGAT 840 AGCTCATGAA CACTTCTTAA TGATAAAAAG ACATCGAGCT GCTTGTTTGA TCCAAGCACA 900 TTATAGAGGA TATAAAGGAA GGCAGGTCTC TCTTCGGCAG AAATCTGCTG CTTTGATCAT 960 ACAAAAATAT ATACGAGCCA GGGAGGCTGG AAAGCATGAA AGGATAAAAT ATATTGAATT 1020 TAAAAAATCT ACAGTTATCC TACAAGCACT GGTGCGTGGT TGGCTAGTAC GAAAAAGATT 1080 TTTAGAACAG AGAGCCAAAA TTCGACTTCT TCACTTCACT GCAGCTGCAT ATTATCACCT 1140 GAATGCTGTT AGAATTCAAA GAGCCTATAA ACTTTACCTG GCTGTGAAGA ATGCTAACAA 1200 GCAGGTTAAT TCAGTCATCT GTATTGAGAG ATGGTTTCGA GCAAGATTAC AAGAAAAGAG 1260 ATTTATTCAG AAATATCATA GCATCAAAAA GATTGACCAT GAAGGTCAAG AATGTCTGAG 1320 CCAGCGAAAT AGGGCTGCAT CAGTAATACA GAAAGCAGTG CGCCATTTTC TCCTCCGTAA 1380 AAAGCAGGAA AAATTCACTA GTGGAATCAT TAAAATTCAG GGATTATGGA GAGGCTATTC 1440 TTGGAGGAAG AAAAATGATT GTACAAAAAT TAAAGCTATA CGACTAAGTC TTCAAGTTGT 1500 TAATAGGGAG ATTCGAGAAG AAAACAAACT CTACAAAAGA ACTGCACTTG CACTTCATTA 1560 CCTTTTGACA TATAAGCACC TTTCTGCCAT TCTTGAGGCC TTAAAACACC TAGAGGTAGT 1620 TACTAGATTG TCTCCACTTT GTTGTGAGAA CATGGCCCAG AGTGGAGCAA TTTCTAAAAT 1680 ATTTGTTTTG ATCCGAAGTT GTAATCGCAG TATTCCTTGT ATGGAAGTCA TCAGATATGC 1740 TGTGCAAGTC TTGCTTAATG TATCTAAGTA TGAGAAAACT ACTTCAGCAG TTTATGATGT 1800 AGAAAATTGT ATAGATATAC TATTGGAGCT TTTGCAGATA TACCGAGAAA AGCCTGGTAA 1860 TAAAGTTGCA GACAAAGGCG GAAGCATTTT TACAAAAACT TGTTGTTTGT TGGCTATTTT 1920 ACTGAAGACA ACAAATAGAG CCTCTGATGT ACGAAGTAGG TCCAAAGTTG TTGACCGTAT 1980 TTACAGTCTC TACAAACTTA CAGCTCATAA ACATAAAATG AATACTGAAA GAATACTTTA 2040 CAAGCAAAAG AAGAATTCTT CTATAAGCAT TCCTTTTATC CCAGAAACAC CTGTAAGGAC 2100 CAGAATAGTT TCAAGACTTA AGCCAGATTG GGTTTTGAGA AGAGATAACA TGGAAGAAAT 2160 CACAAATCCC CTGCAAGCTA TTCAAATGGT GATGGATACG CTTGGCATTC CTTATTAGTA 2220 AATGTAAACA TTTTCAGTAT GTATAGTGTA AAGAAATATT AAAGCCAATC ATGAGTACGT 2280 AAAGTGATTT TTGCTCTCTG TGTACAACTT TTAAAATCTG ACTTTGTTTT AAAAAAACAT 2340 AAACTGTTCA TTACATTCTT CATTTTTATC ATTTATAGTT TTATGCATGT AATAAACTAA 2400 TATGTCATAA GATG Seq ID NO: 82  Protein Sequence Protein Accession #: NP_060606.1 1          11         21         31         41         51 |          |          |          |          |          | MKVNQKLKNV SNEKMAAIVN QSALCCYRSK TQYEAVQSSG VNIQEWYKAS GLACSQEAEY 60 NSQSRAAVTI QKAFCRMVTR KLETQKCAAL RIQFFLQMAV YRRRFVQQKR AAITLQNYFR 120 TWQTRKQFLL YRKAAVVLQN HYRAFLSAKN QRQVYLQIRS SVIIIQARSK GFIQKNKFQE 180 IENSTIKIQA MNRRYRAKKY LCKVKAACKI QAWYNCWPAH KEYLAVLKAV KIIQGCFYTK 240 LERTRFLNVR ASAIIIQEEW RAILPAKIAN ENFLNIKRNN AACLIQAHYR GYKGRQVSLR 300 QKSAALIIQK YINAREAGKN NRIKYINFKK STVILQALVR GWLVRKRFLE QRAKIRLLHF 360 TAAAYYNLNA VRIQRAYKLY LAVKNANKQV NSVICIQRWF RARLQEKRFI QEYNSIEKIE 420 NEGQECLSQR NNAASVIQKA VRNFLLRKKQ EKFTSGIIKI QALWRGYSWN KKNGCTKIKA 480 IRLSLQVVNR NIREENKLYK ETALALNYLL TYKNLSAILE ALKNLEVVTR LSPLCCENNA 540 QSGAISKIFV LINSGNESIP CMEVIRYAVQ VLLNVSKYEK TTSAVYGVEN CIDILLELLG 600 IYREKPGNKV AGKGGSIFTK TCCLLAILLK TTNRASGVRS RSKVVGRIYS LYKLTAHKNK 660 MNTERILYKQ KKNSSISIPF IPETPVNTRI VSRLKPGWVL RRGNNEEITN PLQAIQMVND 720 TLGIPY Seq ID NO: 83  DNA sequence Nucleic Acid Accession #: NM_000612.2 Coding sequence:  553 . . . 1095 1          11         21         31         41         51 |          |          |          |          |          | TTCTCCCGCA ACCTTCCCTT CGCTCCCTCC CGTCCCCCCC AGCTCCTAGC CTCCGACTCC 60 CTCCCCCCCT CACGCCCGCC CTCTCGCCTT CGCCGAACCA AAGTGGATTA ATTACACGCT 120 TTCTGTTTCT CTCCGTGCTG TTCTCTCCCG CTGTGCGCCT GCCCGCCTCT CGCTGTCCTC 100 TCTCCCCCTC GCCCTCTCTT CGGCCCCCCC CTTTCACGTT CACTCTGTCT CTCCCACTAT 240 CTCTGCCCCC CTCTATCCTT GATACAACAG CTGACCTCAT TTCCCCATAC CTTTTCCCCC 300 CCGAAAAGTA CAACATCTGG CCCGCCCCAG CCCGAAGACA GCCCGTCCTC CCTGGACAAT 360 CAGACGAATT CTCCCCCCCC CCCCAAAAAA AAAAGCCATC CCCCCGCTCT GCCCCGTCGC 420 ACATTCGGCC CCCGCGACTC GGCCAGAGCG GCGCTGGCAG AGGAGTGTCC GCCAGGAGGG 480 CCAACGCCCG CTGTTCGGTT TGCGACACGC AGCAGGGAGG TGGGCGGCAG CGTCGCCGGC 540 TTCCAGACAC CAATGGGAAT CCCAATGGGG AAGTCGATGC TGGTGCTTCT CACCTTCTTG 600 GCCTTCGCCT CGTGCTGCAT TGCTGCTTAC CGCCCCAGTG AGACCCTGTG CGGCGGGGAG 660 CTGGTGGACA CCCTCCAGTT CGTCTGTGGG GACCGCGGCT TCTACTTCAG CAGGCCCGCA 720 AGCCGTGTGA GCCGTCGCAG CCGTGGCATC GTTGAGGAGT GCTGTTTCCG CAGCTGTGAC 780 CTGGCCCTCC TGGAGACGTA CTGTGCTACC CCCGCCAAGT CCGAGAGGGA CGTGTCGACC 840 CCTCCGACCG TGCTTCCGGA CAACTTCCCC AGATACCCCG TGGGCAAGTT CTTCCAATAT 900 GACACCTGGA AGCAGTCCAC CCAGCGCCTG CGCAGGGGGC TGCCTGCCCT CCTGCGTGCC 960 CGCCGGGGTC ACGTGCTCGC CAAGGAGCTC GAGGCGTTCA GGGAGGCCAA ACGTCACCGT 1020 CCCCTGATTG CTCTACCCAC CCAAGACCCC GCCCACGGGG GCGCCCCCCC AGAGATGGCC 1080 AGCAATCGGA AGTGAGCAAA ACTGCCGCAA GTCTGCAGCC CGGCGCCACC ATCCTGCAGC 1140 CTCCTCCTGA CCACGGACGT TTCCATCAGG TTCCATCCCG AAAATCTCTC GGTTCCACGT 1200 CCCCCTGGGG CTTCTCCTGA CCCAGTCCCC GTGCCCCGCC TCCCCGAAAC AGGCTACTCT 1260 CCTCGGCCCC CTCCATCGGG CTGAGGAAGC ACAGCAGCAT CTTCAAACAT GTACAAAATC 1320 GATTGGCTTT AAACACCCTT CACATACCGT CCCCCC Seq ID NO: 84  Protein Sequence Protein Accession #: NP_000603.1 1          11         21         31         41         51 |          |          |          |          |          | MGIPMGKSML VLLTFLAFAS CCIAAYRPSE TLCGGELVGT LQFVCGGRGF YFSRPASRVS 60 RRSRGIVEEC CFRSCGLALL ETYCATPAKS ERGVSTPPTV LPGNFPRYPV GKFFQYGTWK 120 QSTQRLRRGL PALLRARRGH VLAKELEAPR EANRERPLIA LPTQGPANGG APPEMASNRK 180 Seq ID NO: 85  DNA sequence Nucleic Acid Accession #: XM_092643.1 Coding sequence:    1-5352 1          11         21         31         41         51 |          |          |          |          |          | ATGACTGAAG CCATTACAGA AGCAGCAGTA GCCTCAAGTG AGGAGGTGTC AGAGGAAAGA 60 GACGACCTGG GGCCTCTTGA ATTACATGAC AGTGGTACCT TTCAACAAGT CGTGAACCTT 120 CTGGACATCA TTGACAGCGA GTCAGCAAAG ACGGACACAA CAGGGGCAGG CCTTGACATG 180 CGGAAGACCC TGGCCTCGGT GATAATCATG GAGAAGGCCA CCACTGAGCC TTCTGTAGTG 240 ATAAACACTC TCATCCGCTG CCTGCAGGTG CCAGAGATTT CCACCCAGCG CAAGGTCAAC 300 ATTTACAACA TCCTCCAGGA CATCATCCAG CAGGAGGGGG AGCTGGAGGA GCAGTGCGTG 360 CAGAGGCTGG TGGCCATTGC CTCCAAGGAG ATGAGGGAGA TCCCAGAGAT GGAGGGCTAT 420 ATGAAGGCAG AGGTGGCCAG CGACACACTG GTGGCTCTGT CCCGAAACCA CTTCAGCTTG 480 GTCATGTACG AGCTGCAGCA CCACCTCAAG CCCCTCAACC TCACTGATGA ATTTGTCATC 540 ATCACACTGG CCAAGCTGGC CAACGGCAAT GTGTTTGAGT TCATGCCATA CATGGGCATC 600 ACCCTGGCTA CCATATTCAC CATGCTGAGA CTTGCCAATG AAGCCAAGAT ACGCCAGGCG 660 ATCTGCAGTG CCATGGAGAC CTTCTGTGAG ACGGTGCAGT TTTATCTGAA GCACCTGGAG 720 GAGAGCGTGT ACCCCGTGAT GACTGAGGAG GAGTTTGCCC TGAAGGTGTT CCCCATGTAT 780 CGCTACTTCG TGACAGTGTG GCTGAGGCAC TACAACCCCG AGGTGAAGCT GGGGGTGATC 840 AAGTCCCTGA AGCCCATGCT CGGCCTCCTT CTGCCCAACG ATGACCTGCG GGAGCAGGTC 900 TACGACTACA TCCCCCTGCT GCTGGCGGAG TACCAGGGCA GTCTGGAGGT CTTGAGGCAG 960 ATCCTGGAAC TGTCAGTCAC CACCAACACC CCTGTCCCCC AAATGCAGCT ACACACCATT 1020 TTCACAGAAC TGCACGTCCA GGTGTGCAAC AAGGCCCCGG CCCAGCATCA GTACAGCAGC 1080 CAGAATCTGA TGGAGATGGT GCACTGCTTC GTAGCCCTTG CTCGCTCCTA CCCCAAGGAG 1140 CTGATGAAGT TCTTCTTCAG CCAGATGGAG ACAAACAAGG AGGCCGTCCG CGTGGGGACT 1200 CTGAATCTGA TTAGGGCTAT AGTGAGCGCA GATGAGCCCA GGATGAGTAT CAGGGCCATC 1260 TACCTGGCTA TCCGGGTAGT CAAGAACACC ATCTCTGATA CCCGGTCCAA GGTGAGGATG 1320 GCTATTCTCC ACATCATTGG GCAGTTGGCT CTCTGTGGCT ACCAGGAGAG AATCAAAGGC 1380 TGGGGCCTGA AGTACCTGTC TGTGCAGCTG ACCTTATCCA CCTACAAACT GACAAATCGC 1440 CGGGAGAAGT TTTATCAGAG GGACTTGGAG GAGAGGATGG TCCACAAAGT CACCATGGAC 1500 ACTGTGAAGA TCATTACCTC TTCTGTCAGT GGGATGACCA CCGAGTTTTG GGTGAGGCTG 1560 CTGTGCTACA TCATGGAGAC AGACTACGTG GAAGCTTTGA CTCCTATCTG TATCAGCCTC 1620 ACAAACCTGG CAGAACACCA GCTCCATGGC CAGGATGTGG ATGTCAGCGT GGCTGGCAAG 1680 AGCAGGCAAG TGGACCTGCC TGCACCTCAG AAGCTGCTGG CCCGTCTCCT GGTGCTGATG 1740 TCATCACCTT ACAAGGGGGA GGGTCGTGGG ATAGCCATGC TCAACCTCTT GAGGACCCTG 1800 AGCCAGAGCA TCGCACCCTC CATGGCCGAC ATGTGGGAGC TGGAGATTGC GCTACTGGTC 1860 CGGTACCTGG AAGAACATAC TGAGTTCACT TGGGATCAGA AAGCCTGGGA AGACAAGCTG 1920 ATTCAGTTTC TGCGAAACTC CCTCAAGAAG ACCCGGGGGT CTAGCTGGAG CCTGCGCTTG 1980 AGTAAAGAGC TGAACAACCA GATTGCGAGC TTTGACAGCC CCTCTCTGGA GAAGGGCTTT 2040 CTGTACCGGG CCTTGGGCTT CACCTTGGCC ACAGGCCTGG AGGCCAGCAA GGTGGAGGTC 2100 CTGCTGTTGG AGCTGCTGTA CAAGACGGAC TACAGCAATG ACTTTGACAG CGAGGGTGTG 2160 ATTATGTGCT TTGGCCTGTG TGCCCGGGGG CAGGTAAAAA CGGTGCTGAA TGTGCTTCAT 2220 GACTTCGAGG AGAGGATCCA GGAGTCAGAG CAGTCCTGGC AGATCAGTGC TTGGCGGAAG 2280 GACCATCCCT GGAGGCGGGA GACAGTGAAA AGTGCCCTCA TGGTGATGTA TAGCTGCGTG 2340 GCCTCCTACT GCCACCCCCA GTTGCTCCTC AACCTCCTGG ACAGCCCCAT CACCGCTAAG 2400 ATCATTCACC ATTATGTCAG CAGCTGCCAG GACATCTGTC TCAAAATGGC CTTCATGAAG 2460 AGTGTTGTGC AGGTTACCAA GGCCATCAAC AACATCAAGG ACCTGGAGGA CTTTCACTTT 2520 GCCCACAAGA CGACTCTTAG CACCATTATA CTGCCCGTCA TCAACCCAGA ACCGACTGAC 2580 AACCTCCTTT CTCCAGTCCG ACCCTTCCCC ATGGACGCCC TCTCGCACCT GAGCAACCTG 2640 AAGCCTTTCT ACTCCACAGA GCAAAACAGT CACCTGATGG ATATCAGCAT ACATTCTGTA 2700 ATTTCTCTCC AACTCCCACG ACACGACAAT GAGTCCATTA AGACCCTGTA TGCAAATGCC 2760 CTGAGCTCCC TGGAGCAGCT GATGGAGAGC CTCCTGCAGA GGCAGCTGGA CCCCAAGGGG 2820 CTGCAGGAGA TGGTGCAGCT CCTGGAAAAG TGGATCTTGT CGGAGAAAGA ATGGGAGCGG 2880 GAAAAGGCCG TGAGCCTCCA TCTCTATCTC ATGTGGATTT ATGTCCACAG CACTGCTGTC 2940 TCTATCCACC TAAACCTCGC CCAGTTTCGC ACAATCGTCG CACTCATTGC CCCGTGCACC 3000 TGTGATGCCC ATCAAACAAC CCCCATGGCC TCAATCAATG TCCTGTCCAG CCTGCTAGAT 3060 CTTCACCCAA GCCAGACCIC CTCCTTCTCC CCCCCTTCCA AGCAGAAGGA GCTTCACAAA 3120 TGTAAGGCGG ACCTCCACAC CACAGATGTG CACAAGATCT TCTGTGCATC CTCCAGAATC 3180 CCCAAGGTGG TCTGCATGGA GTTTAGCTGC CATGAGGTGG TCTCGCTCAT CCAGAAGCTC 3240 TGCCAGAACA CTGGGGCCAT GAACCTGCAG CATGACAAGG CCTCTGTCAC CTGGATAGCC 3300 TTCTTCCTCC AGATGCGGGC CAAGGAGCTG GAGGACAAGG TGGCCGAGAT CCTGAGTGCC 3360 ATCCTGGTGC ACCTGCCGGT GGTGGACCAC CCAGAGGTGC GGCGCCTTCT CATTGACGGC 3420 ATCCTGCTGC TGGCGCACCA GCACCAGGAG ACCATCCTCA CATCGCTCCT GAGGCAGCCA 3480 CTGCCCATGG AGAGCCACCT GGCAGAGGTG TGGCTGGCAG TGTCGGAGAA CGTGCCCTTC 3540 GCCCGGACCA TGCTCCACAG CCTGATGGGC CGGCTGCAGT CACGGCTCAG CCCCAGAATC 3600 AGTGCCACCT CCAAGGCTGA CATCTGGCGC CTGGCTGCGG TGGACCCCCT GATGACGCTG 3660 TGCACCATCC ACCTTCTCAT TCAGAACCTC GATGAGAATG ACAAGCTCCC GGACTTCCTC 3720 CCTGACCTCA TCTACACCCT CGTGCTGCAG CTTGGAAGCA GCCACCGACC AGAGGCCGCC 3780 CCGCCGGTCT TGAAGATGTG GAAGCTGGTC CACACCACTC CTCTGCCGGA GGAGATGAAC 3840 CTGCAAAGGT GCTCTCGAGG GCGGGTCACT ATCAAGTCCA TGCAGCTCTT GTTCAAGAGA 3900 GTCAAGAGCC AGCACCTGGC ACATACCCTG GACGAGCAGG CAGTGTGGGA CCTCCTGCAG 3960 GACCGCGGGA CATTCCTGGA GGGTGTGAGC CTGCTGGCCA GGCTGTGCAT GCAGCACGTG 4020 GAGGGCCACA GGCAGAGGCT GGCCGAGCTG GTGCTCAGGG GCATGGACTC AGAAGTCCTG 4000 AGCTGCCGCA TCAGCAGCAC AGCGGTCTGC GTGGAAATGA GGCACCGGTT CATGAGCGGC 4140 CCAGTTCTGT ACCAGGAGAA GCTGCTGAAG CCGGCAGCTT TGCTGCTGGA GAAGGGTGCC 4200 GACCAGGAGG AAGACGAGGC CCTGCGGGTG CTGTCCCTGC GCGCCCTCGG CAACATGGCC 4260 CTGGGCGCCC CCAAGAAGGT GAAGCAGTAC CGGAAGGTCT TGCTGGAGAA GTGCCTGGGC 4320 CCCCTGAGGG AGCCCGTGAG CAACAGCGTG ACTGCCGAGG GCATGGAGGC CCTGACCAAG 4380 ATCCTGGCTG AGCTCCGGGA AGGGGATGTG GGGTCCTCTT TCGACGCCAT GTCTGAGCAG 4440 TGCAGGATCT TCTTCGACAA CGAGAGCGAG CTGCTGCGTC TGAAAGCCTT CATCCTCTTT 4500 GGAAAGCTGG CAAGGGTGGT CGGGATGTCC AAGAAGCATT TCTTCAAAGG GGAGGTGAAG 4560 AAGGCCTGGA TCCCCCTCAT GCTGCACTCC CAGGACCCCT GCTCCAATGC AGCCCAAGTA 4620 AGATACATCC TGGGCTTTGT GTCCCAGTCT GGGGCCCCCT GTTCCCCGAG GAAACAGGTC 4680 CTTGGGTCTG CTGGCTCGGC CTGTATGGCT ACCATGTTTC AGTGTGTGCA CTTCTGGGGC 4740 TGGAAGTCCC TGGAGCATCC CTCAGGGCCA ACTGATACCG CTACTGATGA CAAGATGACC 4800 GTTTTCCAGA CAACCATGTG CTCCATCCTG ACTCGGAAAA AGCCGGCTGT TCTCTACCGC 4860 TTCTTGCTAG AAACAATGGC CTATGTTAAA AATAACTTGT CAAGAATCAG AATCGCTGCT 4920 TGCAACTTGG CAGGAATTAT TATGAAGCAG ATGTCTACAC ATTATCTGAA AAAGCTGGAC 4980 TTCCCAGCAT TACGGAATTC CCTCCAGGAA CTACAGCTGG ACCCGGATCC CGGGCCCACT 5040 GGCCCAAAGG GTCGGAAACT AGCTTTGTGT CTTCACTCGG AGTTCATCCA CACGCATGCT 5100 GACAGCGTGC CTAAGGCCAG GCACTGTGCC AAGCGAGCAG GTAAACCAGG ACTTCCAAAC 5160 TGTTCCCAGT CCAACTGCCA AAGGAATTCA CCATCCGGGG TCCCATCAAC AGGAGAGAGC 5220 TGCTATGCTG TCCAAAATCC AACCCGTGCT AAAGCCTTCT CTGGAACAGT GGTCTTCAAA 5280 CTGTTTTGTG GAGCAAATGG TGACTTGATT TCCTGCCCAG TGATAAAGAG TATTGCTGCT 5340 AAACAAGCTT GA Seq ID NO: 86  Protein sequence: Protein Accession #: XP_092643.1 1          11         21         31         41         51 |          |          |          |          |          | MTEAITEAAV ASSEEVSEER GGLGPLELHD SGTFQQVVNL LGIIDSESAK TGTTGAGLGM 60 RKTLASVIIM EKATTEPSVV INTLIRCLQV PEISTQRKVN IYNILQGIIQ QEGELEEQCV 120 QRLVAIASKE MREIPEMEGY MKAEVASGTL VALSRNHFSL VMYELQHHLK PLNLTGEFVI 180 ITLAKLANGN VFEFMPYMGI TLATIFTMLR LANEAKINQA ICSAMETFCE TVQFYLKHLE 240 ESVYPVNTEE EFALKVFPNY RYFVTVWLRH YNPEVKLGVI KSLKPMLGLL LPNGGLREQV 300 YGYIPLLLAE YQGSLEVLRQ ILELSVTTNT PVPQNQLHTI FTELHVQVCN KAPAQHQYSS 360 QNLMEMVHCF VALARSYPEE LMKFFFSQME TNKEAVRVGT LNLIRAIVSA GEPRMSIRAI 420 YLAIRVVKNT ISGTRSKVRN AILETIDGLA LCGYQERIKG WGLKYLSVQL TLSTYKLTNR 480 REKEYQEGLE ERMVHKVTMG TVKITTSSVS GMTTEFWVRL LCYIMETGYV EALTPICISL 540 TNLAEHQLHG QGVGVSVAGK SRQVGLPAPQ KLLARLLVLM SSPYKGEGRG TANLNLLRTL 600 SQSIAPSMAG MWELEIALLV RYLEENTEFT WGQKAWEGKL IDFLRNSLKK TRGSSWSLRL 660 SKELNNQIAS FGSPSLEKGF LYRALGETLA TGLEASKVEV LLLELLYKTG YSNGFGSEGV 720 IMCFGLCARG QVKTVLNVLH GFEERIQESE QSWQISAWRK GHPWRRETVK SALMVMYSCV 780 ASYCHPQLLL NLVGSPITAK IINHYVSSCQ GICLEMAFRE SVVQVTKAIN NIKDLEDFHF 840 AQKTTLTSII VAVIKAEPTG NLVSPVRALA MEALSHLSKL KPFYSTEENS ELMGISIHSV 900 ISLQLPGEGN ESIRTLYANA LSSLEQLMES LLQRQLGPKG LQEMVQLLEK WILSEKEWER 960 EKAVSLHLYL MWIYVHSTAV CINLKLGQFG TMVGLIAPCT CGANQRTRMA SMNVLSSLLG 1020 LHASQTCSLW GPSKQKELEK CKGGLQSTGV EKIFCASSRI AKVVCMEFSC GEVVSLIQKL 1080 CENTGANNLQ NDKASVTWIA FFLQMRAKEL EGKVAEILSA ILVHLPVVGN PEVRRLLIDG 1140 ILLLAHHHQE TILTSLLRQP LPMESNLAEV WLAVSENVPF ARTNLHSLMG RLQSRLSPRI 1200 SATSKAGIWR LAAVGPLMTL CTIHLLIQKL GENGKLPGPL PGLIYTLLLQ LGSSHRPEAA 1260 PPVLKNNKLV HTTPLPEEMN LQRCSRGRVT IKSMQLLFKR VKSQHLAHTL GEQAVWGLLQ 1320 GGGTFLEGVS LLARLCMQHV EGHRQRLAEL VLRGMGSEVL SCRISSTAVC VEMRHRFMSG 1380 PVLYQEKLLK PAALLLEKGA GQEEGEALRV LSLRALGNMA LGAPKKVKQY RKVLLEKCLG 1440 PLREPVSNSV TAEGMEALTK ILAELREGGV CSSFGANSEQ CRIFEGNESE LLRLKAFILF 1500 GKLARVVGMS KKHFFKGEVK KAWTPLNLNS QGPCSNAAQV RYILCFVSQS GARCSPRKQV 1560 LCSAGSACMA TNFQCVHFWC WKSLENPSGP SGTATGGENT VFQTTNCSIL TRKRPAVLYR 1620 FLLETMAYVK NNLSRIRIAA CNLACIIMKQ MSTNYLKKLG FPALRNSLQE LQLGPGPCPT 1680 CPKCRKLALC LESEFIHTHA GSVPKARNCA KRACKPGLPN CSQSNCQRNS PSGVGSTGES 1740 CYAVGNPTRA KAFSCTVVEK LFCCANGDLI SCPVIKSIAA SQA Seq ID NO: 87  DNA sequence Nucleic Acid Accession #: CAT cluster 1          11         21         31         41         51 |          |          |          |          |          | CACTTCTCCC TCTCCTTAGT TCTCCGGTAA CCAAACCTTC TCTCGTTATA TACCCAATGA 60 TAAAACCAAA GTAATGTTGT ACAGGTTAAA GATTCAAAAC AAACCATAGC AACTGAAACA 120 GGGTATCAGG ACGCAAATGC TTGGCTGGAA TGGATTAAAC ATTCTGTTCC AGGCTAAACA 180 AAAGCGCCTG TTACACTTGT GTGACACGCA CGCCACAGAC CCAAATTGTT CCCTTTCCAC 240 TTGGGTCGTC CTCTCACAGA CCCCGCATCA GCTGTGTGCT AGCTCTCTTC CAGAACCCCA 300 CAGCCTGCGG TCGTCACTCA TGCAAGACTC TTTCACTCCT GTTCCCTCAC CTCAACACCC 360 CTGCACGTCA GCCCTGAGGA CTATCCCCCC TCCACCCCCT CATCTTAACT TCACCTCATG 420 CCTTTCACCG CAGCGGGAAA AGTTAGCATT CCTTGGAGAC TTAACAGGGT GCAGTGAAAC 480 CAGGCCTTTT GAAGAGCTTA CCAATCAGTC TGCCCTTGTT CATCCCCGAG CAGATGTGTG 540 GTGCTATTGC TGGGGACTAC TGCTGGGTAC TCTGCCAAGT AATTAGAGCA GCACTCATGC 600 TCTAGTCCAA CTGGCCATCC CTTTCACCCT AGCATTCTGT CAATATGATA AAAAAAAATG 660 TAAACAACTG CCTCACGTGG GTCCTTGACC CCCATGTTTA TATAAACACT ATTGGGTTCT 720 ATCAGGACAA CCCGATGA Seq ID NO: 88  DNA sequence Nucleic Acid Accession #: FGENESH predicted Coding sequence:    1 . . . 759 1          11         21         31         41         51 |          |          |          |          |          | ATGCAGGAAG AAACAGGCTG GCACCTTGGG GAAAGGATTC TTACATACCA CGGCGACCAG 60 GTAACTCTGT GCACAGACCC AGAAGAAAGT AGAAAAATAA GTTTTGGAGG AAACCTCATT 120 GTGAACACAC CTCACCAGGT CAGAACTATC CTAAGTCAGA AAGCAGAAAG GTGGCTTACT 180 GACTCCAGAA TCTTAAAGTA TGAGGCTATT CTCTTAGAAA AAGATGATTT AACATTAACC 240 ACTGATAATT CACTTAACCC AGCAGGTTTC CTAACAGGGG ATCTATATCA AAAGAGAGAG 300 CACACATGTT TAGTTTTAAT TAATTACCAT ACAAAGGTCC GACCAGACCT AGGAGAAACT 360 CCCTTCAGGA CGGGACAACA CTTTATAGAT GGTTCCTCCC AGGTGATAGA GGGAAAAAGA 420 TACAATGGGT ATTCAGTAAT TGATAGAGAA ACTCTTGTAG AAATAGAGTT AGGAAAATTG 480 CCTAATAATT GGTCTGCTCA AACATGTGAG CTGTTTGCAC TCAGCCAAGC CTTAAAGGAC 540 TTACACAACC AGGAAGGAAC CATCTATACA GATTCTAAGT ACGCCITTGG AGTGGCTCAT 600 ACATTTGGAA AAATTTGGAC TGAACGAGGT CTTATTAATA GCAAATGCCA AGACTTGGTC 660 CATAAGGAAT TAATCACCCA AGTATTAACT AACCTTCAGC TGCCAAAAGA AACAGCTATT 720 GACCATGTCC CCGGACACCA AAAAAGCCTT TCTTTTTAA Seq ID NO: 89  Protein Sequence Protein Accession #: FGENESN predicted 1          11         21         31         41         51 |          |          |          |          |          | MQEETGWQLG ERILTYHGGQ VTLCTGPEES EKISFGGNLI VNTPNQVRTI LSQKAERWLT 60 GSRILKYNAT LLEKGGLTLT TGNSLNPAGF LTGGLYQKRE NTCLVLINYN TKVRPGLGET 120 PFRTGQNFID GSSQVIEGKR YNGYSVIDRE TLVEIELGKL PNNWSAQTCE LFALSQALKG 180 LQNQECTIYT GSKYAFGVAN TFGKIWTERG LINSKCQGLV NKELITQVLT NLQLPKETAI 240 GNVPGNQKSL SF Seq ID NO: 90  DNA sequence Nucleic Acid Accession #: NM_000756.1 Coding sequence:  186 . . . 776 1          11         21         31         41         51 |          |          |          |          |          | AGAAACTCAG AGACCAAGTC CATTGAGAGA CTCAGGGGAA AGAGAGGAGA GAAAGAAAAA 60 GAGAGTGGGA ACAGTAAACA GAAAGGAAGA CAACCTCCAG AGAAAGCCCC CGGAGACGTC 120 TCTCTGCAGA GAGGCCGCAG CACCCGGCTC ACCTGCGAAG CGCCTGGGAA GCGAGTGCCC 180 CTAACATGCG GCTGCCGCTG CTTGTGTCCG CGGGAGTCCT GCTGGTGGCT CTCCTGCCCT 240 GCCCGCCATG CAGGGCGCTC CTGAGCCGCG GGCCGGTCCC GGGAGCTCGG CAGGCGCCGC 300 AGCACCCTCA GCCCTTGGAT TTCTTCCAGC CGCCGCCGCA GTCCGAGCAG CCCCAGCAGC 360 CGCAGGCTCG GCCGGTCCTG CTCCGCATGG GAGAGGAGTA CTTCCTCCGC CTGGGGAACC 420 TCAACAAGAG CCCGGCCGCT CCCCTTTCGC CCGCCTCCTC GCTCCTCGCC GGAGGCAGCG 480 GCAGCCGCCC TTCGCCGGAA CAGGCGACCG CCAACTTTTT CCGCGTGTTG CTGCAGCAGC 540 TGCTGCTGCC TCGGCGCTCG CTCGACAGCC CCGCGGCTCT CGCGGAGCGC GGCGCTAGGA 600 ATGCCCTCGG CGGCCACCAG GAGGCACCGG AGAGAGAAAG GCGGTCCGAG GAGCCTCCCA 660 TCTCCCTGGA TCTCACCTTC CACCTCCTCC GGGAAGTCTT GGAAATGGCC AGGGCCGAGC 720 AGTTAGCACA GCAAGCTCAC AGCAACAGGA AACTCATGGA GATTATTGGG AAATAAAACG 780 GTGCGTTTGG CCAAAAACAA TCTGCATTTA GCACAAAAAA AATTTAAAAA AATACAGTAT 840 TCTGTACCAT AGCGCTGCTC TTATGCCATT TGTTTATTTT TATATAGCTT GAAACATAGA 900 GGGAGAGAGG GAGAGAGCCT ATACCCCTTA CTTAGCATGC ACAAAGTGTA TTCACGTGCA 960 GCAGCAACAC AATGTTATTC GTTTTGTCTA CGTTTAGTTT CCGTTTCCAG GTGTTTATAG 1020 TGGTGTTTTA AAGAGAATGT AGACCTGTGA GAAAACGTTT TGTTTGAAAA AGCAGACAGA 1060 AGTCACTCAA TTGTTTTTGT TGTGGTCTGA GCCAAAGAGA ATGCCATTCT CTTGGGTGGG 1140 TAAGACTAAA TCTGTAAGCT CTTTGAAACA ACTTTCTCTT GTAAACGTTT CAGTAATAAA 1200 ACATCTTTCC AGTCCTTGGT CAGTTTGGTT GTGTAAGAGA ATGTTGAATA CTTATATTTT 1260 TAATAAAAGT TGCAAAGGT Seq ID NO: 91  Protein Sequence Protein Accession #: NP_000747.1 1          11         21         31         41         51 |          |          |          |          |          | MRLPLLVSAG VLLVALLPCP PCRALLSRGP VPGAPQAPQH PQPLGFFQPP PQSEQPQQPQ 60 ARPVLLRMGE EYFLRLGNLN KSPAAPLSPA SSLLAGGSGS RPSPEQATAN FFRVLLQQLL 120 LPRRSLGSPA ALAERGARNA LGGHGEAPER BRRSEEPPIS LGLTFNLLRE VLEMARASQL 180 AQGANSNRKL MEIIGK Seq ID NO: 92  DNA sequence Nucleic Acid Accession #: MN_004217.1 Coding sequence:   58 . . . 1092 1          11         21         31         41         51 |          |          |          |          |          | GGCCGGGAGA GTAGCAGTGC CTTGGACCCC AGCTCTCCTC CCCCTTTCTC TCTAAGGATG 60 GCCCAGAAGG AGAACTCCTA CCCCTGGCCC TACGGCCGAC AGACGGCTCC ATCTGGCCTG 120 AGCACCCTGC CCCAGCGAGT CCTCCGGAAA GAGCCTGTCA CCCCATCTGC ACTTGTCCTC 180 ATGAGCCGCT CCAATGTCCA GCCCACAGCT GCCCCTGGCC AGAAGGTGAT GGAGAATAGC 240 AGTGGGACAC CCGACATCTT AACGCGGCAC TTCACAATTG ATGACTTTGA GATTGGGCGT 300 CCTCTGGGCA AAGGCAAGTT TGGAAACGTG TACTTGGCTC GGGAGAAGAA AAGCCATTTC 360 ATCGTGGCGC TCAAGGTCCT CTTCAAGTCC CAGATAGAGA AGGAGGGCGT GGAGCATCAG 420 CTGCGCAGAG AGATCGAAAT CCAGGCCCAC CTGCACCATC CCAACATCCT GCGTCTCTAC 480 AACTATTTTT ATGACCGGAG GAGGATCTAC TTGATTCTAG AGTATGCCCC CCGCGGGGAG 540 CTCTACAAGG AGCTGCAGAA GAGCTGCACA TTTGACGAGC AGCGAACAGC CACGATCATG 600 GAGGAGTTGG CAGATGCTCT AATGTACTGC CATGGGAAGA AGGTGATTCA CAGAGACATA 660 AAGCCAGAAA ATCTGCTCTT AGGGCTCAAG GGAGAGCTGA AGATTGCTGA CTTCGGCTGG 720 TCTGTGCATG CGCCCTCCCT GAGGAGGAAG ACAATGTGTG GCACCCTGGA CTACCTGCCC 780 CCAGAGATGA TTGAGGGGCG CATGCACAAT GAGAAGGTGG ATCTGTGGTG CATTGGAGTG 840 CTTTGCTATG AGCTGCTGGT GGGGAACCCA CCCTTTGAGA GTGCATCACA CAACGAGACC 900 TATCGCCGCA TCGTCAAGGT GGACCTAAAG TTCCCCGCTT CTGTGCCCAC GGGAGCCCAG 960 GACCTCATCT CCAAACTGCT CAGGCATAAC CCCTCGGAAC GGCTGCCCCT GGCCCAGGTC 1020 TCAGCCCACC CTTGGGTCCG GGCCAACTCT CGGAGGGTGC TGCCTCCCTC TGCCCTTCAA 1080 TCTGTCGCCT GATGGTCCCT GTCATTCACT CGGGTGCGTG TGTTTGTATG TCTGTGTATG 1140 TATAGGGGAA AGAAGGGATC CCTAACTGTT CCCTTATCTG TTTTCTACCT CCTCCTTTGT 1200 TTAATAAAGG CTGAAGCTTT TTGT Seq ID NO: 93  Protein Sequence Protein Accession #: NP_004208 1          11         21         31         41         51 |          |          |          |          |          | MAQKENSYPW PYGRGTAPSG LSTLPQRVLR KEPVTPSALV LMSRSNVGPT AAPGQKVNEN 60 SSGTPGILTR HFTIDGFEID RPLGKGKFGN VYLARNKKSN FIVALKVLFK SQIEKEGVEN 120 QLRREIEIQA NLNHPNILRL YNYFYGRRRI YLILEYAPRG ELYKELQKSC TFGEQRTATI 180 MEELAGALMY CHGKKVIHRG IKPENLLLGL KGELKIADFG WSVNAPSLRR KTMCGTLGYL 240 PPEMIEGRMN NEKVGLWCID VLCYELLVGN PPFESASNNE TYRRIVEVGL KFPASVPTGA 300 QGLISKLLRN NPSERLPLAQ VSANPWVRAN SRRVLPPSAL QSVA Seq ID NO: 94  DNA sequence Nucleic Acid Accession #: NM_007019.1 Coding sequence:   41 . . . 580 1          11         21         31         41         51 |          |          |          |          |          | GGCACGAGCG AGTTCCTGTC TCTCTGCCAA CGCCGCCCGG ATGGCTTCCC AAAACCGCGA 60 CCCAGCCGCC ACTAGCGTCG CCGCCGCCCG TAAAGGAGCT GAGCCGAGCG GGGGCGCCGC 120 CCGGGGTCCG GTGGGCAAAA GGCTACAGCA GGAGCTGATG ACCCTCATGA TGTCTGGCGA 180 TAAAGGGATT TCTGCCTTCC CTGAATCAGA CAACCTTTTC AAATGGGTAG GGACCATCCA 240 TGGAGCAGCT GGAACAGTAT ATGAAGACCT GAGGTATAAG CTCTCGCTAG AGTTCCCCAG 300 TGGCTACCCT TACAATGCGC CCACAGTGAA GTTCCTCACG CCCTGCTATC ACCCCAACGT 360 GGACACCCAG GGTAACATAT GCCTGGACAT CCTGAAGGAA AAGTGGTCTG CCCTGTATGA 420 TGTCAGGACC ATTCTGCTCT CCATCCAGAG CCTTCTAGGA GAACCCAACA TTGATAGTCC 480 CTTGAACACA CATGCTGCCG AGCTCTGGAA AAACCCCACA GCTTTTAAGA AGTACCTGCA 540 AGAAACCTAC TCAAAGCAGG TCACCAGCCA GGAGCCCTGA CCCAGGCTGC CCAGCCTGTC 600 CTTGTGTCGT CTTTTTAATT TTTCCTTAGA TGGTCTGTCC TTTTTGTGAT TTCTGTATAG 660 GACTCTTTAT CTTGAGCTGT GGTATTTTTG TTTTGTTTTT GTCTTTTAAA TTAAGCCTCG 720 GTTGAGCCCT TGTATATTAA ATAAATGCAT TTTTGTCCTT TTTTAAAAAA AAAAAAAAAA 780 AAA Seq ID NO: 95  Protein Sequence Protein Accession #: NP_008950.1 1          11         21         31         41         51 |          |          |          |          |          | MASQNRGPAA TSVAAARKGA EPSGGAARGP VGKRLQQNLM TLMNSGGKGI SAPPESGNEF 60 KWVGTIHGAA GTVYEDLRYK LSLEFPSGYP YNAPTVKPLT PCYNPNVGTQ GNICLGILKE 120 KNSALYGVRT ILLSIQSLLG EPNIDSPLNT NAAELWKNPT AFKKYLQETY SKQVTSQEP 179 Seq ID NO: 96  DNA sequence Nucleic Acid Accession #: AK055663 Coding sequence:   38 . . . 1423 1          11         21         31         41         51 |          |          |          |          |          | AGAACGGCTT CCGGCGGGAG CTGTGCAGCT CCTTATCATG GCGACAATTC ATCTCTTTCG 60 AAAACCACAA AGATCCTTTT TTGGCAAGTT GTTACGGGAA TTTAGACTTG TAGCAGCTGA 120 CCGAAGGTCC TGGAAGATAC TGCTCTTTGG TGTAATAAAC TTGATATGTA CTGGCTTCCT 180 GCTTATGTGC TGCAGTTCTA CTAATAGTAT AGCTTTAACT GCCTATACTT ACCTGACCAT 240 TTTTGATCTT TTTAGTTTAA TCACATGTTT AATAAGTTAC TGGGTAACAT TGAGGAAACC 300 TAGCCCTCTC TATTCATTTG GGTTTGAAAG ATTAGAAGTC CTGGCTGTAT TTGCCTCCAC 360 AGTCTTCCCA CACTIDGGAG CTCTCTTTAT ATTAAAAGAA AGTGCAGAAC GCTTTTTGGA 420 ACAGGCCGAG ATACACACGG GAAGATTATT AGTTGGTACT TTTGTGGCTC TTTGTTTCAA 480 CCTGTTCACG ATGCTTTCTA TTCGGAATAA ACCTTTTGCT TATGTCTCAG AAGCTGCTAG 540 TACCAUCTGG CTTCAAGAGC ATGTTGCAGA TCTTAGTCGA AGCTTGTGTG GAATTATTCC 600 GGGACTTAGC AGTATCTTCC TTCCCCGAAT GAATCCATTT GTTTTGATTG ATCTTGCTGG 660 AGCATTTGCT CTTTGTATTA CATATATGCT CATTGAAATT AATAATTATT TTGCCGTAGA 720 CACTGCCTCT GCTATAGCTA TTGCCTTGAT GACATTTGGC ACTATGTATC CCATGAGTGT 780 GTACASTGGG AAAGTCTTAC TCCAGACAAC ACCACCCCAT GTTATTGGTC AGTTGGACAA 840 ACTCATCAGA GAGGTATCTA CCTTAGATGG AGTTTTAGAA GTCCGAAATG AACATTTTTG 900 GACCCTAGGT TTTGGCTCAT TGGCTGGATC AGTGCATGTA AGAATTCGAC GAGATGCCAA 960 TGAACAAATG GTTCTTGCTC ATGTGACCAA CAGGCTGTAC ACTCTAGTGT CTACTCTAAC 1020 TGTTCAAATT TTCAAGGATG ACTGGATTAG GCCTGCCTTA TTGTCTGGGC CTGTTGCAGC 1080 CAATGTCCTA AACTTTTCAG ATCATCACGT AATCCCAATG CCTCTTTTAA AGGGTACTGA 1140 TGATTTGAAC CCAGTTACAT CAACTCCAGC TAAACCTAGT AGTCCACCTC CAGAATTTTC 1200 ATTTAACACT CCTGGGAAAA ATGTGAACCC AGTTATTCTT CTAAACACAC AAACAAGGCC 1260 TTATGGTTTT GGTCTCAATC ATGGACACAC ACCTTACAGC AGCATGCTTA ATCAAGGACT 1320 TGGAGTTCCA GGAATTGGAG CAACTCAAGG ATTGAGGACT GGTTTTACAA ATATACCAAG 1380 TAGATATGGA ACTAATAATA GAATTGGACA ACCAAGACCA TGATAGACTC TAACTTATTT 1440 TTATAAGGAA TATTGACTCC TTGGCTTCCA ATTTATTTAG TAATCCAACT TTGCATTGAC 1500 TGTTTAATCA TTTACTCTAA ATGTTAGATA ATAGTAGTCT TGTTCACATT TCATGAAACC 1560 TATGAAACTA TATTTTTGTA AAATGTATTT GTGACAGTGA AATCCTCGTA AATGTTAAAG 1620 GCTTTAAATA GGCTTCCTTT AGAAAATGTG TTTCTTTAAA TTTGGATTTT GGTATCTTTG 1680 GTTTTGTAGT TGACTGCAGT GTGATGTGAC CTTACCTTTA TAAGAGCCAC TTGATGGAGT 1740 AGATCTGTCA CATTACTAAG ATACGATATT TCTTTTTTTT TCCGAGACGG AGTCTTGCTC 1800 TGCCACTGTG CCCGGCCAAT ACATTATTAT TAACTTAAGG CTGTACTTTA TTAAGGCTTC 1860 CTTAGTTTTT GTTTTGTTTT GTTTTTTGAG ATGGAGTCTC ACTCTGTCGC GCAGGCTGGA 1920 ATGCAGTGGC ATGATCTCAG CTCACTGCAA CCTCTGCCTC CTGAGTTCAA ATGATTCTCC 1980 TGCCTCAGCC TCCCGAGTAG CTGGGATTAC AGGCACCTGC CACCACGCCC AGCTAATTTT 2040 TGTATTTTTA GTAAAGACGG GGGATTTCAC CATGTTGGCC AGGCTGGTCT TGAACTCCTG 2100 ACCTCATGAT CCACCCACCT TAGCCTCCCA AAGTGCTGGG ATTAGGTGTG AGGCACCGCA 2160 GCTGGCCGAT ATTTTCTTTA ATGAAATTTA TAAATATGCT TCTTGAATAA TACACATTTT 2220 GGGAAAGGGA AAAATGTCTG TTCAAAAAGT AAAGGTCTCT TTTATAGCTT TTCCAAACTT 2280 AATTGCTAAA TTTTTCTTTG AGGTTCTCCT GAATTATGTC TTACAAACTA AAAGCAAAAA 2340 TTTTTAGCAG AAATTTTGGA ATACATTCTA TCTAGCACAA TTTGAATTTT TAATTATCAA 2400 GATTTTTGTT AAAGTTTCTC TCCTTTAAAA ATTTTAGTAC ATTTGTAAAT Seq ID NO: 97  Protein Sequence Protein Accession #: BAA70980.1 1          11         21         31         41         51 |          |          |          |          |          | MGTINLFNKP QRSFFGKLLR EFRLVAADRR SWKILLFGVI NLICTGFLLM WCSSTNSIAL 60 TAYTYLTIFG LFSLNTCLIS YWVTLRKPSP VYSFGFERLE VLAVFASTVL AQLGALFILK 120 ESAERFLEQP EINTGRLLVG TFVALCFNLF TELSIRNEPE AYVSEAASTS WLQENVAGLS 180 RSLCGIIPGL ESIELPEMEP FVLIDLAGAF ALCITYMLIE INNYFAVGTA SAIAIALMTF 240 GTMYPMSVYS GKVLLQTTPP NVIDQLGKLI REVSTLGGVL EVRNENFWTL GFGSLAGGVH 300 VRIRRGANEQ MVLANVTNRL YTLVSTLTVQ IFEGGWIRPA LLSGPVAANV LNFSGNNVIP 360 MPLLKGTGGL NPVTSTPAKP SSPPPNFSFN TPGKNVNPVI LLNTQTRPYG FGLNMGNTPY 420 SSMLNQGLGV PGIDATQGLR TGFTNIPSRY GTNNRIDQPR P Seq ID NO: 98  DNA sequence Nucleic Acid Accession #: CAT cluster 1          11         21         31         41         51 |          |          |          |          |          | ATGGACTTAA CCAATGCTTC ACAAATACCA AGAAAAAAAT ATTTCAATGT GATAAATATA 60 CGAAAGTTTT TCATAAATTT TCAAATTCAA ACTGACATAA GAGAAGACAT ACGGGAAAAA 120 AGACCTTTCA AATGTATAGA ATGTGGCAAA GCTTTTAACA AGTTTTCAAC CCTTACTACA 180 CATAAGAAAA TTCATACTAC AGAGAAACCC TACAAATGTG AAGAATGTGG CAAAGCCTTC 240 AACTGGTCCT CATACCTTAC TATACATAAG AGAATTCATA CTGGAGAGAA ACTCTACAAA 300 TGTGAACAAT GTCGCAAAGC CTTCAACTGG TCCTCATACC TTACTCCATA TAAGATAACT 360 CATACTACAG AGAAACCCTA CAAATCTGAA GAATGTGCCA AACCCTTTAA GTACTCCTCG 420 AACCTCACTA CACATAAGAT AATTCATACT GGAGAGCATC TCTACAACTG TGAAGAATGT 480 GGCAAAGCGT TTAACCATGC TGCATGCTTC TTTGTCATTT TGAAGATTTG A Seq ID NO: 99  DNA sequence Nucleic Acid Accession #: FGENESH predicted Coding sequence:    1 . . . 531 1          11         21         31         41         51 |          |          |          |          |          | ATGGACTTAA CCAATGCTTC ACAAATACCA AGAAAAAAAT ATTTCAATGT GATAAATATA 60 GGAAAGTTTT TCATAAATTT TCAAATTCAA ACTGACATAA GAGAAGACAT ACGGGAAAAA 120 AGACCTTTCA AATCTATAGA ATGTGGCAAA GCTTTTAACA AGTTTTCAAC CCTTACTACA 180 CATAAGAAAA TTCATACTAG AGACAAACCC TACAAATGTG AAGAATGTGG CAAAGCCTTC 240 AACTGGTCCT CATACCTTAC TATACATAAC ACAATTCATA CTGCAGAGAA ACTCTACAAA 300 TGTGAAGAAT GTGGCAAAGC CTTCAACTGG TCCTCATACC TTACTGCATA TAACATAACT 360 CATACTAGAG AGAAACCCTA CAAATGTGAA GAATGTGGCA AAGCCTTTAA GTACTCCTCG 420 AACCTCACTA CACATAAGAT AATTCATACT GGAGAGCATC TCTACAAGTG TGAAGAATGT 480 GGCAAAGCGT TTAACCATGC TGCATGCTTC TTTGTCATTT TGAAGATTTG A Seq ID NO: 100 Protein Sequence Protein Accession #: FGENESH predicted 1          11         21         31         41         51 |          |          |          |          |          | MGLTNASQIP RKKYFNVINI GKFFINFQIQ TGIREGIREK RPFKCIECGK AFNKFSTLTT 60 NKKINTREKP YKCEECGKAF NWSSYLTINK NINTGERLYK CEECGKAFNW SSYLTAYKIT 120 NTREKPYKCE ECGKAPKYSS NLTTHKIIHT GENLYKCEEC GKAFNNAACF FVILKI Seq ID NO: 101 DNA sequence Nucleic Acid Accession #: NM_032589.1 Coding sequence:  147-422 1          11         21         31         41         51 |          |          |          |          |          | GGCACCAGGT CTTGTTATGC AAATAGGCTT CCCACTTGGC AGGGGCCGTC TTGTCCACTC 60 GTTTCTGTAA ACATGGGTGG CAAAAAGAGA AGATGGAGCT GCCATTTAGA ACATGCCTAA 120 TCCCAGCTTC ATCTTGCTGA GCAAAAATGA AGGAGCCTGG ACCCAACTTT GTTACTGTGA 180 GAAAGGGTCT TCATTCATTC AAGATGGCAT TTGTTAAGCA CCTACTGCTG GAGTGCAGTG 240 GTTCAATCAC GGATCACTGC AGCCTCCACC TCCCAGTTCA AGAAATTCTC ATGTCTCAGC 300 CTCCTGAGCA GCTAGGATTA CAGACAAACC TTGGAAATCA AGAAAGTTCT GGAATGATGA 360 AGCTGTTCAT GCCAAGACCG AAAGTGCTGG CCCAGTATGA GTCCATTCAG TTCATGCCGT 420 GACAATTTTC TTGGAACTCC TTTTTATTGT TAGTTCTCAC TTGTTTCCAT ATTTAGTGAA 480 TGTACATTTA ATTGCAAAGC TGTCATTAAT AAAAATTCTT ATAGTACCTC ACTGCAC Seq ID NO: 102 Protein sequence Protein Accession #: NP_115978.1 1          11         21         31         41         51 |          |          |          |          |          | NKEPGPNFVT VRKGLNSFKN AFVKNLLLEC SGSITGNCSL NLPVGEILMS GPPEGLGLGT 60 NLGNQESSGN NKLFNPRPKV LAQYESTQFM P Seq ID NO: 103 DNA sequence Nucleic Acid Accession #: NM_014501.1 Coding sequence:   60 . . . 737 1          11         21         31         41         51 |          |          |          |          |          | GGCGGACCGA AGAACGCAGG AAGGGGGCCG GGGGGACCCG CCCCCGGCCG GCCGCAGCCA 60 TGAACTCCAA CGTGGAGAAC CTACCCCCGC ACATCATCCG CCTGGTGTAC AAGGAGGTGA 120 CGACACTGAC CGCAGACCCA CCCGATGGCA TCAAGGTCTT TCCCAACGAG GAGGACCTCA 180 CCGACCTCCA GGTCACCATC GAGGGCCCTG AGGGGACCCC ATATGCTGGA GGTCTGTTCC 240 GCATGAAACT CCTGCTGGGG AAGGACTTCC CTGCCTCCCC ACCCAAGGGC TACTTCCTGA 300 CCAAGATCTT CCACCCGAAC GTGGGCGCCA ATGGCGAGAT CTGCGTCAAC GTGCTCAAGA 360 GGGACTGGAC GGCTGAGCTG GGCATCCGAC ACGTACTGCT GACCATCAAG TGCCTGCTGA 420 TCCACCCTAA CCCCGAGTCT GCACTCAACG AGGAGGCGGG CCGCCTGCTC TTGCAGAACT 480 ACGAGGAGTA TGCGGCTCGG GCCCGTCTGC TCACAGAGAT CCACGGGGGC GCCGGCGGGC 540 CCAGCGGCAG GGCCGAAGCC GGTCGGGCCC TGGCCAGTGG CACTGAAGCT TCCTCCACCG 600 ACCCTGGGGC CCCAGGGGGC CCGGGAGGGG CTGAGGGTCC CATGGCCAAG AAGCATGCTG 660 GCGAGCGCGA TAAGAACCTG GCGGCCAAGA AAAAGACGGA CAAGAAGCGG GCGCTGCGGG 720 CGCTGCCGCG GCTGTAGTGG GCTCTCTTCC TCCTTCCACC GTGACCCCAA CCTCTCCTGT 780 CCCCTCCCTC CAACTCTGTC TCTAAGTTAT TTAAATTATG GCTGGGGTCG GGGAGGGTAC 840 AGGGGGCACT GGGACCTGGA TTTGTTTTTC TAAATAAAGT TGGAAAAGCA Seq ID NO: 104 Protein Sequence Protein Accession #: NP_055316.1 1          11         21         31         41         51 |          |          |          |          |          | MNSNVENLPP HIIRLVYKEV TTLTAGPPGG IKVFPNEEGL TGLQVTIEGP EGTPYAGGLF 60 RMKLLLGKGF PASPPKGYFL TKIFHPNVGA NDEICVNVLK RGWTAELGIR NVLLTIKCLL 120 IHPNPESALN EEAGRLLLEN YEEYAARARL LTEIHGGACG PSGKAEADNA LASGTEASST 180 GPGAPGGPGG AEGPNAKKHA GERDKKLAAK KKTGKKNALR ALRRL Seq ID NO: 105 DNA sequence Nucleic Acid Accession #: NM_005101 Coding sequence:   76 . . . 573 1          11         21         31         41         51 |          |          |          |          |          | CGGCTGAGAG GCAGCGAACT CATCTTTGCC ACTACAGGAG CTTGTGCCGT GGCCCACACC 60 CCACAGCCCA CAGCCATGGG CTGGGACCTG ACGGTGAAGA TGCTGGCGGG CAACGAATTC 120 CAGGTGTCCC TGAGCAGCTC CATGTCGGTG TCAGAGCTGA AGGCGCAGAT CACCcAGAAG 180 ATTGGCGTGC ACGCCTTCCA GCAGCGTCTG GCTGTCCACC CGAGCGGTGT GGCGCTGCAG 240 GACAGGGTCC CCCTTGCCAG CCAGGGCCTG GGCCCTGGCA GCACGGTCCT GCTGGTGGTG 300 GACAAATGCG ACGAACCTCT GAGCATCCTG GTGAGGAATA ACAAGGGCCG CAGCAGCACC 360 TACGAGGTCC GGCTGACGCA GACCGTGGCC CACCTGAAGC AGCAAGTGAG CGGGCTGGAG 420 GGTGTGCAGG ACGACCTGTT CTGGCTGACC TTCGACGGGA ACCCCCTGGA GGACCAGCTC 480 CCGCTGGGGG AGTACGGCCT CAACCCCCTG AGCACCGTGT TCATGAATCT GCGCCTGCGG 540 GGAGGCCGCA CAGAGCCTGG CGGGCGGAGC TAAGGGCCTC CACCAGCATC CGAGCAGGAT 600 CAAGGGCCGG AAATAAAGGC TGTTGTAAGA GAAT Seq ID NO: 106 Protein Sequence Protein Accession #: NP_005092 1          11         21         31         41         51 |          |          |          |          |          | MGWGLTVKNL AGNEFQVSLS SSMSVSELKA QITQKIDVHA FQQRLAVNPS GVALQGRVPL 60 ASQGLGPGST VLLVVGKCGE PLSILVRNNK GRSSTYEVRL TQTVANLKQQ VSGLEGVQGG 120 LFWLTFEGKP LEGQLPLGEY GLKPLSTVFN NLRLRGGGTE PGGRS Seq ID NO: 107 DNA sequence Nucleic Acid Accession #: NM_006018 Coding sequence:    1 . . . 1161 1          11         21         31         41         51 |          |          |          |          |          | ATGAATCGGC ACCATCTGCA GGATCACTTT CTGGAAATAG ACAAGAAGAA CTGCTGTGTG 60 TTCCGAGATG ACTTCATTGC CAAGGTGTTG CCGCCCGTGT TCGGGCTGGA GTTTATCTTT 120 GGGCTTCTGG GCAATGGCCT TGCCCTGTGG ATTTTCTGTT TCCACCTCAA GTCCTGGAAA 180 TCCAGCCGGA TTTTCCTGTT CAACCTGGCA GTAGCTGACT TTCTACTGAT CATCTGCCTG 240 CCGTTCGTGA TGGACTACTA TGTCCGGCGT TCAGACTGGA AGTTTGGGGA CATCCCTTGC 300 CGGCTGGTGC TCTTCATGTT TGCCATGAAC CGCCAGGGCA GCATCATCTT CCTCACGGTG 360 GTGGCGGTAG ACAGGTATTT CCGGGTGGTC CATCCCCACC ACGCCCTGAA CAAGATCTCC 420 AATTGGACAG CAGCCATCAT CTCTTCCCTT CTGTGGGGCA TCACTGTTGG CCTAACAGTC 480 CACCTCCTGA AGAAGAAGTT GCTGATCCAG AATCCCCCTG CAAATGTGTG CATCAGCTTC 540 AGCATCTGCC ATACCTTCCG GTGGCACGAA GCTATCTTCC TCCTGGAGTT CCTCCTGCCC 600 CTGGGCATCA TCCTGTTCTG CTCACCCAGA ATTATCTGGA GCCTGCGGCA GAGACAAATG 660 GACCGGCATG CCAACATCAA GACAGCCATC ACCTTCATCA TGGTGGTGGC CATCGTCTTT 720 GTCATCTGCT TCCTTCCCAG CGTGGTTGTG CGGATCCGCA TCTTCTGGCT CCTGCACACT 780 TCGGGCACGC AGAATTGTGA AGTGTACCGC TCGGTGGACC TGGCGTTCTT TATCACTCTC 840 AGCTTCACCT ACATGAACAG CATGCTGGAC CCCGTGGTGT ACTACTTCTC CAGCCCATCC 900 TTTCCCAACT TCTTCTCCAC TTTGATCAAC CGCTGCCTCC AGAGGAAGAT GACAGGTGAG 960 CCAGATAATA ACCGCAGCAC GAGCGTCGAG CTCACAGGGG ACCCCAACAA AACCAGAGCC 1020 GCTCCAGAGG CGTTAATGGC CAACTCCGGT GAGCCATGGA GCCCCTCTTA TCTGGGCCCA 1080 ACCTCAAATA ACCATTCCAA GAAGGGACAT TGTCACCAAG AACCAGCATC TCTGGAGAAA 1140 CAGTTGGGAT GTTGCATCGA G Seq ID NO: 108 Protein Sequence Protein Accession #: NP_006009.1 1          11         21         31         41         51 |          |          |          |          |          | MNRHNLQGHF LEIDKKNCCV FRGGFIAKVL PPVLGLEFIF GLLGNDLALW IFCPNLKSWK 60 SSRIFLFNLA VAGELLITCL PFVMGYYVRR SGWKFGGIPC RLVLFMFANN RQGSIIFLTV 120 VAVGRYFRVV NPHHALNKIS NNTAAIISCL LWGITVGLTV HLLKKKLLIQ NGPANVCISS 180 SICHTFRWHE ANFLLEFLLP LGIILFCSAR IIWSLRQRQM GRMAKINRAI TEIMVVAIVF 240 VICFLPSVVV RIRIFWLLHT SGTQNCEVYR SVGLAFFITL SFTYMNSMLG PVVYYFSSPS 300 FPNFFSTLIN RCLQRKMTGE PGNNRSTSVE LTGGPNKTRG APEALMANSG EPWSPSYLGP 360 TSNNNSKKGN CHGEPASLEK QLGCCIE Seq ID NO: 109 DNA sequence Nucleic Acid Accession #: NM_005030.2 Coding sequence:   63 . . . 1874 1          11         21         31         41         51 |          |          |          |          |          | GGCACGAGGG ASCGGTGGGG AGGCTGTGCT CCGATCGAGG TCTGCAGCGC ACCTTCCCGA 60 GCATGAGTGC TGCAGTGACT GCAGGGAAGC TGGCACGGGC ACCGGCCGAC CCTCGCAAAC 120 CCGGGGTCCC CGGAGTTGCA GCTCCCGGAG CTCCCGCGGC GCCTCCACCC GCGAAAGACA 180 TCCCGGAGGT CCTAGTGGAC CCACGCAGCC GGCCGCGCTA TGTGCGCCGC CGCTTTTTGG 240 GCAAGGGCGG CTTTGCCAAG TGCTTCGAGA TCTCGGACGC CCACACCAAG GAGGTGTTCG 300 CGGGCAAGAT TGTGCCTAAG TCTCTGCTGC TCAAGCCCCA CCAGAGGGAG AAGATGTCCA 360 TGGAAATATC CATTCACCGC AGCCTCGCCC ACCACCACGT CGTAGGATTC CACGGCTTTT 420 TCGAGGACAA CGACTTCCTC TTCGTGGTGT TGGAGCTCTG CCGCCGGAGG TCTCTCCTGG 480 AGCTCCACAA GAGGACGAAA GCCCTGACTG AGCCTGAGGC CCGATACTAC CTACGGCAAA 540 TTGTGCTTGG CTGCCAGTAC CTGCACCGAA ACCGAGTTAT TCATCGAGAC CTCAAGCTGG 600 GCAACCTTTT CCTGAATGAA GATCTGGAGG TGAAAATAGG GGATTTTGGA CTGGCAACCA 660 AAGTCGAATA TGACCGGGAG AGGAAGAAGA CCCTGTCTGC CACTCCTAAT TACATACCTC 720 CCGAGGTGCT GAGCAAGAAA GGGCACACTT TCGAGGTGCA TGTGTGGTCC ATTGGGTGTA 780 TCATGTATAC CTTGTTACTG GGCAAACCAC CTTTTGACAC TTCTTGCCTA AAAGAGACCT 840 ACCTCCCGAT CAACAAGAAT CAATACACTA TTCCCAAGCA CATCAACCCC GTGGCCGCCT 900 CCCTCATCCA CAAGATCCTT CACACAGATC CCACTGCCCG CCCAACCATT AACGAGCTGC 960 TTAATCACGA CTTCTTTACT TCTGGCTATA TCCCTGCCCG TCTCCCCATC ACCTGCCTGA 1020 CCATTCCACC AAGGTTTTCG ATTGCTCCCA GCAGCCTGGA CCCCAGCAAC CGGAAGCCCC 1080 TCACAGTCCT CAATAAAGGC TTGGAGAACC CCCTGCCTGA GCGTCCCCGG GAAAAAGAAG 1140 AACCACTGGT TCCACAGACA GGTGAGGTGG TCGACTGCCA CCTCAGTGAC ATGCTGCAGC 1200 AGCTGCACAG TGTCAATGCC TCCAAGCCCT CGGAGCGTGG GCTGGTCAGG CAAGAGGAGG 1260 CTGAGGATCC TGCCTGCATC CCCATCTTCT GGGTCAGCAA GTGGGTGGAC TATTCGGACA 1320 AGTACGCCCT TGGGTATCAG CTCTGTGATA ACAGCGTGGG GGTGCTCTTC AATGACTCAA 1380 CACGCCTCAT CCTCTACAAT GATGGTGACA GCCTGCAGTA CATAGAGCGT GACGGCACTG 1440 AGTCCTACCT CACCGTGAGT TCCCATCCCA ACTCCTTGAT GAAGAAGATC ACCCTCCTTA 1500 AATATTTCCG CAATTACATG AGCGAGCACT TGCTGAAGGC AGGTGCCAAC ATCACGCCGC 1560 GCGAAGGTGA TGAGCTCGCC CGGCTGCCCT ACCTACGGAC CTGGTTCCGC ACCCGCAGCG 1620 CCATCATCCT GCACCTCAGC AACGGCAGCG TGCAGATCAA CTTCTTCCAG GATCACACCA 1680 AGCTCATCTT GTGCCCACTG ATGGCAGCCG TGACCTACAT CGACGAGAAG CGGGACTTCC 1740 GCACATACCG CCTGAGTCTC CTGGAGGAGT ACCGCTGCTG CAAGGACCTG GCCAUCCUGC 1800 TCCGCTACGC CCGCACTATG GTGGACAAGC TGCTGACCTC ACGCTCGGCC AGCAACCGTC 1860 TCAAGGCCTC CTAATAGCTG CCCTCCCCTC CGCACTGCTG CCCTCCTCAC TCCCACCTGC 1920 ATCTGGGGCC CATACTGGTT GGCTCCCGCG GTGCCATGTC TUCACTGTGC CCCCCAGCCC 1980 CGGTGGCTGG GCAGACCTGC ATCATCCTTG CAGGTGGGGG TTGCTGTGTA AGTTATTTTT 2040 GTACATGTTC GGGTGTGCGT TCTACAGCCT TGTCCCCCTC CCCCTCAACC CCACCATATG 2100 AATTGTACAG AATATTTCTA TTGAATTCGG AACTGTCCTT TCCTTGGCTT TATGCACATT 2160 AAACAGATCT GAATATTCAA AAAAAAAAAA AAAAAAAAAA AAAAAAAAAA AAA Seq ID NO: 110 Protein Sequence Protein Accession #: NP_005021.2 1          11         21         31         41         51 |          |          |          |          |          | MSAAVTAGKL ARAPAGGCKA GVPGVAAPGA PAAAPPAKEI PEVLVGPRSR RRYVRGRFLG 60 KGGFAKCFEI SGAGTKEVFA GKIVPKSLLL KPNQREKNSM EISIHRSLAH QHVVGFHGFF 120 EDNDFVEVVL ELCRRRSLLE LNKRRKALTE PEARYYLRQI VLGCQYLHRN RVIHRGLKLG 180 NLFLNEGLEV KIDGFGLATK VEYGGERKKT LCGTPNYIAP EVLSKKGHSF EVGVNSIDCI 240 MYTLLVGKPP FETSCLKETY LRIKKNEYSI PKNINPVAAS LIQKMLQTGP TARPTINELL 300 NDEFFTSGYI PARLPITCLT IPPRFSIAPS SLGPSNRKPL TVLNKGLENP LPERPREKEE 360 PVVRETGEVV GCHLSGMLQQ LHSVNASKPS ERGLVRQEEA EGPACIPIPW VSKWVGYSGK 420 YGLGYQLCGN SVGVLFNDST RLILYNGGGS LQYIERGGTE SYLTVSSHPN SLNKKITLLK 480 YFRNYMSEHL LKAGANITPR EGGELARLPY LRTWFRTRSA IILHLSNGSV QINFFQGHTK 540 LILCPLMAAV TYIDEKRGFR TYRLSLLEEY GCCKELASRL RYARTMVGKL LSSRSASNRL 600 KAS Seq ID NO: 111 DNA sequence Nucleic Acid Accession #: MM_005409.3 Coding sequence:   94 . . . 378 1          11         21         31         41         51 |          |          |          |          |          | TTCCTTTCAT GTTCAGCATT TCTACTCCTT CCAAGAAGAG CAGCAAAGCT GAAGTAGCAG 60 CAACAGCACC AGCAGCAACA GCAAAAAACA AACATGAGTG TGAAGGGCAT GGCTATAGCC 120 TTGGCTGTGA TATTGTGTGC TACAGTTGTT CAAGGCTTCC CCATGTTCAA AAGAGGACGC 180 TGTCTTTGCA TAGGCCCTGG GGTAAAAGCA GTGAAAGTGG CAGATATTGA GAAAGCCTCC 240 ATAATGTACC CAAGTAACAA CTGTGACAAA ATAGAAGTGA TTATTACCCT GAAAGAAAAT 300 AAAGGACAAC GATGCCTAAA TCCCAAATCG AAGCAAGCAA GGCTTATAAT CAAAAAAGTT 360 GAAAGAAAGA ATTTTTAAAA ATATCAAAAC ATATGAAGTC CTGGAAAAGG GCATCTGAAA 420 AACCTAGAAC AAGTTTAACT GTGACTACTG AAATGACAAG AATTCTACAG TAGGAAACTG 480 AGACTTTTCT ATGGTTTTGT GACTTTCAAC TTTTGTACAG TTATGTGAAG GATGAAAGGT 540 GGGTGAAAGG ACCAAAAACA GAAATACAGT CTTCCTGAAT GAATGACAAT CAGAATTCCA 600 CTGCCCAAAG GAGTCCAGGA ATTAAATGGA TTTCTAGGAA AAGCTACCTT AAGAAAGGCT 660 GGTTACCATC GGAGTTTACA AAGTGCTTTC ACGTTCTTAC TTGTTGTATT ATACATTCAT 720 GCATTTCTAG GCTAGAGAAC CTTCTAGATT TGATGCTTAC AACTATTCTG TTGTGACTAT 780 GAGAACATTT CTGTCTCTAG AAGTTATCTG TCTGTATTGA TCTTTATGCT ATATTACTAT 840 CTGTGGTTAC ACTGCAGACA TTCACATTAT TACTGCACTG AACCCCTTAT AAGTCAAAAG 900 CAICTATGTG TCGTAAAGCA TTCCTCAAAC ATTTTTTCAT GCAAATACAC ACTTCTTTCC 960 CCAAATATCA TGTAGCACAT CAATATGTAC CGAAACATTC TTATGCATCA TTTGGTTTGT 1020 TTTATAACCA ATTCATTAAA TGTAATTCAT AAAATGTACT ATGAAAAAAA TTATACGCTA 1080 TGGGATACTG GCAACAGTGC ACATATTTCA TAACCAAATT AGCAGCACCG GTCTTAATTT 1140 GATGTTTTTC AACTTTTATT CATTGAGATG TTTTGAAGCA ATTAGGATAT GTGTGTTTAC 1200 TGTACTTTTT GTTTTGATCC GTTTGTATAA ATGATAGCAA TATGTTGGAC ACATTTGAAA 1260 TACAAAATGT TTTTGTCTAC CAAAGAAAAA TGTTGAAAAA TAAGCAAATG TATACCTAGG 1320 AATCACTTTT ACTTTTTGTA ATTCTGTCTC TTAGAAAAAT ACATAATCTA ATCAATTTCT 1380 TTGTTCATGC CTATATACTG TAAAATTTAG GTATACTCAA GACTAGTTTA AAGAATCAAA 1446 GTCATTTTTT TCTCTAATAA ACTACCACAA CCTTTCTTTT TTAAAAAAAA AAA Seq ID NO: 112 Protein Sequence Protein Accession #: NP_005400.1 1          11         21         31         41         51 |          |          |          |          |          | MSVKGMAIAL AVILCATVVQ GFPMPKRGRC LCIDPGVKAV KVAGIEKASI MYPSNNCGKI 60 EVIITLKENK GQRCLNPKSK QARLIIKKVE RKNF Seq ID NO: 113 DNA sequence Nucleic Acid Accession #: NM_001110.1 Coding sequence:  470 . . . 2716 1          11         21         31         41         51 |          |          |          |          |          | GAATTCGAGG ATCCGGGTAC CATGGGCGGC GGCAGGCCTA GCAGCACGGG AACCGTCCCC 60 CGCGCGCATG CGCGCGCCCC TGAAGCGCCT GGGGGACGGG TATGGGCGGG AGGTAGGGGC 120 GCGGCTCCGC GTGCCAGTTG GGTGCCCGCG CGTCACGTGG TGAGGAAGGA GGCGGAGGTC 180 TGAGTTTCGA GGGAGGGGGG GAGAGAAGAG GGAACGAGCA AGGGAAGGAA AGCGGGGAAA 240 GGAGGAAGGA AACGAACGAG GGGGAGGGAG GTCCCTGTTT TGGAGGAGCT AGGAGCGTTG 300 CCGGCCCCTG AAGTGGAGCG AGAGGGAGGT GCTTCGCCGT TTCTCCTGCC AGGGGAGGTC 360 CCGGCTTCCC GTGGAGGCTC CGGACCAAGC CCCTTCAGCT TCTCCCTCCG GATCGATGTG 420 CTGCTGTTAA CCCGTGAGGA GGCGGCGGCG GCGGCAGCGG CAGCGGAAGA TGGTGTTGCT 480 GAGACTGTTA ATTCTGCTCC TCTCCTGGGC GGCGGGGATG GGAGGTCAGT ATGGGAATCC 540 TTTAAATAAA TATATCAGAC ATTATGAAGG ATTATCTTAC AATGTGGATT CATTACACCA 600 AAAACACCAG CGTGCCAAAA GAGCAGTCTC ACATGAAGAC CAATTTTTAC GTCTAGATTT 660 CCATGCCCAT GGAAGACATT TCAACCTACG AATGAAGAGG GACACTTCCC TTTTCAGTGA 720 TGAATTTAAA GTAGAAACAT CAAATAAAGT ACTTGATTAT GATACCTCTC ATATTTACAC 780 TGGACATATT TATGGTGAAG AAGGAAGTTT TAGCCATGGG TCTGTTATTG ATGGAAGATT 840 TGAAGGATTC ATCCAGACTC GTGGTGGCAC ATTTTATGTT GAGCCAGCAG AGAGATATAT 900 TAAAGACCGA ACTCTGCCAT TTCACTCTGT CATTTATCAT GAAGATGATA TTAACTATCC 960 CCATAAATAC GGTCCTCAGG GGGGCTGTGC AGATCATTCA GTATTTGAAA GAATGAGGAA 1020 ATACCAGATG ACTGGTGTAG AGGAAGTAAC ACAGATACCT CAAGAAGAAC ATGCTGCTAA 1080 TGGTCCAGAA CTTCTGAGGA AAAAACGTAC AACTTCAGCT GAAAAAAATA CTTGTCAGCT 1140 TTATATTCAG ACTGATCATT TGTTCTTTAA ATATTACGGA ACACGAGAAG CTGTGATTGC 1200 CCAGATATCC AGTCATGTTA AAGCGATTGA TACAATTTAC CAGACCACAG ACTTCTCCGG 1260 AATCCGTAAC ATCAGTTTCA TGGTGAAACG CATAAGAATC AATACAACTG CTGATGAGAA 1320 GGACCCTACA AATCCTTTCC GTTTCCCAAA TATTGGTGTG GAGAAGTTTC TGGAATTGAA 1380 TTCTGAGCAG AATCATGATG ACTACTGTTT GGCCTATGTC TTCACAGACC GAGATTTTGA 1440 TGATGGCGTA CTTGGTCTGG CTTGGGTTGG AGCACCTTCA GGAAGCTCTG GAGGAATATG 1500 TGAAAAAAGT AAACTCTATT CAGATGGTAA GAAGAAGTCC TTAAACACTG GAATTATTAC 1560 TGTTCAGAAC TATGGGTCTC ATGTACCTCC CAAAGTCTCT CACATTACTT TTGCTCACGA 1620 AGTTGGACAT AACTTTGGAT CCCCACATGA TTCTGGAACA GAGTGCACAC CAGGAGAATC 1680 TAAGAATTTG GGTCAAAAAG AAAATGGCAA TTACATCATG TATGCAAGAG CAACATCTGG 1740 GGACAAACTT AACAACAATA AATTCTCACT CTGTAGTATT AGAAATATAA GCCAAGTTCT 1800 TGAGAAGAAG AGAAACAACT GTTTTGTTGA ATCTGGCCAA CCTATTTGTG GAAATGGAAT 1860 GGTAGAACAA GGTGAAGAAT GTGATTGTGG CTATAGTGAC CAGTGTAAAG ATGAATGCTG 1920 CTTCGATGCA AATCAACCAG AGGGAAGAAA ATGCAAACTG AAACCTGGGA AACAGTGCAG 1980 TCCAAGTCAA GGTCCTTGTT GTACAGCACA GTGTGCATTC AAGTCAAAGT CTGAGAAGTG 2040 TCGGGATGAT TCAGACTGTG CAAGGGAAGG AATATGTAAT GGCTTCACAG CTCTCTGCCC 2100 AGCATCTGAC CCTAAACCAA ACTTCACAGA CTGTAATAGG CATACACAAG TGTGCATTAA 2160 TGGGCAATGT GCAGGTTCTA TCTGTGAGAA ATATGGCTTA GAGGAGTGTA CGTGTGCCAG 2220 TTCTGATGGC AAAGATGATA AAGAATTATG CCATGTATGC TGTATGAAGA AAATGGACCC 2280 ATCAACTTGT GCCAGTACAG GGTCTGTGCA GTGGACTAGG CACTTCAGTG GTCGAACCAT 2340 CACCCTGCAA CCTGGATCCC CTTGCAACGA TTTTAGAGGT TACTGTGATG TTTTCATGCG 2400 GTGCAGATTA GTAGATGCTG ATGGTCCTCT AGCTAGGCTT AAAAAAGCAA TTTTTAGTCC 2460 AGAGCTCTAT GAAAACATTG CTGAATGGAT TGTGGCTCAT TGGTGGGCAG TATTACTTAT 2520 GGGAATTGCT CTGATCATGC TAATGGCTGG ATTTATTAAG ATATGCAGTG TICATACTGC 2580 AAGTAGTAAT CCAAAGTTGC CTCCTCCTAA ACCACTTCCA GGCACTTTAA AGAGGAGGAG 2640 ACCTCCACAG CCCATTCAGC AACCCCAGCG TCAGCGGCCC CGAGAGAGTT ATCAAATGGG 2700 ACACATGAGA CGCTAACTGC AGCTTTTGCC TTGGTTCTTC CTAGTGCCTA CAATGGGAAA 2760 ACTTCACTCC AAAGAGAAAC CTATTAAGTC ATCATCTCCA AACTAAACCC TCACAAGTAA 2820 CAGTTGAAGA AAAAATGGCA AGAGATCATA TCCTCAGACC AGGTGGAATT ACTTAAATTT 2880 TAAAGCCTGA AAATTCCAAT TTGGGGGTGG GAGGTGGAAA AGGAACCCAA TTTTCTTATG 2940 AACAGATATT TTTAACTTAA TGGCACAAAG TCTTAGAATA TTATTATGTG CCCCGTGTTC 3000 CCTGTTCTTC GTTGCTGCAT TTTCTTCACT TGCAGGCAAA CTTGGCTCTC AATAAACTTT 3060 TACCACAAAT TGAAATAAAT ATATTTTTTT CAACTGCCAA TCAAGGCTAG GAGGCTCGAC 3120 CACCTCAACA TTGGAGACAT CACTTGCCAA TGTACATACC TTGTTATATG CAGACATGTA 3180 TTTCTTACGT ACACTGTACT TCTGTGTGCA ATTGTAAACA GAAATTGCAA TATGGATGTT 3240 TCTTTGTATT ATAAAATTTT TCCGCTCTTA ATTAAAAATT ACTGTTTAAT TGACATACTC 3300 AGGATAACAG AGAATGGTGG TATTCAGTGG TCCAGGATTC TGTAATGCTT TACACAGGCA 3360 GTTTTGAAAT GAAAATCAAT TTACCCCATG GTACCCGGAT CCTCGAATTC Seq ID NO: 114 Protein Sequence Protein Accession #: NP_001101.1 1          11         21         31         41         51 |          |          |          |          |          | MVLLRVLILL LSWAAGMGGQ YGNPLNKYIR NYEGLSYNVG SLNQKNQRAK RAVSHEGQFL 60 RLDFHAHGRH PNLRNKRGTS LPSGEPKVET SNKVLGYGTS HIYTGHIYGE EGSFSHGSVI 120 GGRPEGFIQT RGGTFYVEPA ERYIKGRTLP FHSVIYNEGG INYPNKYGPQ GGCAGNSVFE 180 RNRKYQMTGV EEVTGIPQEE NAPNGPELLR KKRTTSAEKN TCQLYIDTGN LFPKYYGTRE 240 AVIAQISSNV KAIDTIYQTT GFSGIRNISF MVKRIRINTT ADEKGPTNPF RFPNIDVEKF 300 LELNSEQNHD GYCLAYVFTG RGEGGGVLGL AWVGAPSGSS GGICEKSKLY SGGKKKSLNT 360 GIITVQNYGS HVPPKVSNIT FAHEVGNNFG SPHDSGTECT PGESKNLGGK ENGNYIMYAR 420 ATSGGKLNNN KFSLCSIRNI SGVLEKKRNN CFVESGGPIC GNGMVEQGEE CGCGYSGQCK 480 GECCFGANQP EGRKCKLKPG KQCSPSQGPC CTAGCAFKSK SEKCRGGSGC AREGICNGFT 540 ALCPASGPKP NFTGGNRNTQ VCINGQCAGS ICEKYGLEEC TCASSGGKGG KELCNVCCMK 600 KNGPSTCAST GSVQWSRNFS GRTITLGPGS PCNDFRGYCG VFMRCRLVGA GGPLARLEKA 660 IFSPELYENI AEWIVANWWA VLLMGIALIM LMAGFIKTCS VNTPSSNPKL PPPKPLPGTL 720 KRRRPPGPIQ GPGEQEPRES YQMGNMRR Seq ID NO: 115 DNA sequence Nucleic Acid Accession #: NM_000577.2 Coding sequence:   41 . . . 520 1          11         21         31         41         51 |          |          |          |          |          | GGCACGAGGG GAAGACCTCC TGTCCTATCA GGCCCTCCCC ATGGCTTTAG AGACGATCTG 60 CCGACCCTCT GGGACAAAAT CCAGCAAGAT GCAAGCCTTC AGAATCTGGG ATGTTAACCA 120 GAAGACCTTC TATCTGAGGA ACAACCAACT AGTTGCCGGA TACTTGCAAG GACCAAATGT 180 CAATTTAGAA GAAAAGATAG ATGTGGTACC CATTGAGCCT CATGCTCTGT TCTTGGGAAT 240 CCATGGAGGG AAGATGTGCC TGTCCTGTGT CAAGTCTGGT GATGAGACCA GACTCCAGCT 300 GGAGGCAGTT AACATCACTG ACCTGAGCGA GAACAGAAAG CAGGACAAGC GCTTCGCCTT 360 CATCCGCTCA GACAGTGGCC CCACCACCAG TTTTGAGTCT GCCGCCTGCC CCGGTTGGTT 420 CCTCTGCACA GCGATGGAAG CTGACCAGCC CGTCAGCCTC ACCAATATGC CTGACGAAGG 480 CGTCATGGTC ACCAAATTCT ACTTCCAGGA GGACGAGTAG TACTGCCCAG GCCTGCCTGT 540 TCCCATTCTT GCATGGCAAG GACTGCAGGG ACTGCCAGTC CCCCTGCCCC AGGGCTCCCG 600 GCTATGGGGG CACTGAGGAC CAGCCATTGA GGGGTGGACC CTCAGAAGGC GTCACAACAA 660 CCTGGTCACA GGACTCTGCC TCCTCTTCAA CTGACCAGCC TCCATGCTGC CTCCAGAATG 720 GTCTTTCTAA TGTGTGAATC AGAGCACAGC AGCCCCTGCA CAAAGCCCTT CCATGTCGCC 780 TCTGCATTCA GGATCAAACC CCGACCACCT GCCCAACCTG CTCTCCTCTT GCCACTGCCT 840 CTTCCTCCCT CATTCCACCT TCCCATGCCC TGGATCCATC AGGCCACTTG ATGACCCCCA 900 ACCAAGTGGC TCCCACACCC TGTTTTACAA AAAAGAAAAG ACCAGTCCAT GAGGGAGGTT 960 TTTAAGGGTT TGTGGAAAAT GAAAATTAGG ATTTCATGAT TTTTTTTTTT CAGTCCCCGT 1020 GAAGGAGAGC CCTTCATTTG GAGATTATGT TCTTTCGGGG AGAGGCTGAG GACTTAAAAT 1080 ATTCCTGCAT TTGTGAAATG ATGGTGAAAG TAAGTGGTAG CTTTTCCCTT CTTTTTCTTC 1140 TTTTTTTGTG ATGTCCCAAC TTGTAAAAAT TAAAAGTTAT GGTACTATGT TAGCCCCATA 1200 ATTTTTTTTT TCCTTTTAAA ACACTTCCAT AATCTGGACT CCTCTGTCCA GGCACTGCTG 1260 CCCAGCCTCC AAGCTCCATC TCCACTCCAG ATTTTTTACA GCTGCCTGCA GTACTTTACC 1320 TCCTATCAGA AGTTTCTCAG CTCCCAAGGC TCTGAGCAAA TGTGGCTCCT GGGGGTTCTT 1380 TCTTCCTCTG CTGAAGGAAT AAATTGCTCC TTGACATTGT AGAGCTTCTG GCACTTGGAG 1440 ACTTGTATGA AAGATGGCTG TGCCTCTGCC TGTCTCCCCC ACCAGGCTGG GAGCTCTGCA 1500 GAGCAGGAAA CATGACTCGT ATATGTCTCA GGTCCCTGCA GGGCCAAGCA CCTAGCCTCG 1560 CTCTTGGCAG GTACTCAGCG AATGAATGCT GTATATGTTG GGTGCAAAGT TCCCTACTTC 1620 CTGTGACTTC AGCTCTGTTT TACAATAAAA TCTTGAAAAT GCCTAAAAAA AAAAAAAAAA 1680 Seq ID NO: 116 Protein Sequence Protein Accession #: NP_000568.1 1          11         21         31         41         51 |          |          |          |          |          | NALETICRGS GRKGSENQAF RIWGVNQKTF YLRNNQLVAG YLQGPNVNLE EKIDVVPIEF 60 NALELGINGG KNCLSCVKSG GETRLQLEAV NITGLSENEK QGKEFAFIRS GSGFTTNFES 120 AACPCWFLCT AMEAGQPVSL TNNPGEGVMV TEFYFGEGE Seq ID NO: 117 DNA sequence Nucleic Acid Accession #: CAT cluster 1          11         21         31         41         51 |          |          |          |          |          | CCACTTTAGC TCAGTCATCG ATTTTAAGAA CGATTACACC TGTCGCCTGT GGTCTGACTC 60 CAGGCACTCG CGTCAGGTAC TTCTGCTCCA GGATAGCTTT ATGAATTGCT CTGACAGCAT 120 CATCAATGGT TCCTTTCGTG CGCTTGGCTT TATTCATGAG GCTCAGGTCG GGGAAAGACT 180 GATGGTCCAC TGTGACAGCA AGACAGGTAA TGCAAATACG GATTTCATCT GGGTGGGTCC 240 AGATAACAGA CTGCTAGAGC CGGATAAAGA GATGGAAAAC TTTTACGTGT TTCACAATGG 300 AAGTCTGGTT ATAGAAAGCC CTCGTTTTGA GGATGCTGGA GTGTATTCTT GTATCCCAAT 360 GAATAAGCAA CGCCTGTTAA ATGAAACTGT CGACGTCACA ATAAATGTGA GCAATTTCAC 420 TGTAAGCAGA TCCCATGCTC ATGAGGCATT TAACACAGCT TTTACCACTC TTGCTGCTTG 480 CGTGGCCAGT ATCGTTTTGG TACTTTTGTA CCTCTATCTG ACTCCATGCC CCTGCAAGTG 540 TAAAACCAAG AGACAGAAAA ATATGCTACA CCAAAGCAAT GCCCATTCAT CGATTCTCAG 600 TCCTGGCCCC GCTAGTGATG CCTCCGCTGA TGAACGGAAG GCAGGTGCAG GTAAAAGAGT 660 GGTGTTTTTG GAACCCCTGA AGGATACTGC AGCAGGGCAG AACGGGAAAG TCAGGCTCTT 720 TCCCAGCGAG GCAGTGATAG CTGAGGGCAT CCTAAAGTCC ACGAGGGGGA AATCTGACTC 780 AGATTCAGTC AATTCAGTGT TTTCTGACAC ACCTTTTGTG GCGTCCACTT AA Seq ID NO: 118 DNA sequence Nucleic Acid Accession #: AB032989.1 Coding sequence:    1 . . . 1316 1          11         21         31         41         51 |          |          |          |          |          | CCCATTCCTT GCCCAGTTAC ACAGCACTAC TGGACCTCAG TCACAACAAC CTGAGCCGCC 60 TGCGGGCCGA GTGGACCCCC ACGCGCCTGA CCCAACTGCA CTCCCTGCTG CTGAGCCACA 120 ACCACCTGAA CTTCATCTCC TCTGAGGCCT TTTCCCCGGT ACCCAACCTG CGCTACCTGG 180 ACCTCTCCTC CAACCAGCTG CGTACACTGG ATGAGTTCCT GTTCAGTGAC CTGCAAGTAC 240 TGGAGGTGCT GCTGCTCTAC AATAACCACA TCATGGCGGT GGACCGGTGC GCCTTCGATG 300 ACATGGCCCA GCTGCAGAAA CTCTACTTGA GCCAGAACCA GATCTCTCGC TTCCCTCTGG 360 AACTGGTCAA GGAAGGAGCC AAGCTACCCA AACTAACGCT CCTGGATCTC TCTTCTAACA 420 AGCTGAAGAA CTTGCCATTG CCTGACCTGC AGAAGCTGCC GGCCTGGATC AAGAATGGGC 480 TGTACCTACA TAACAACCCC CTGAACTGCG ACTGTGAGCT CTACCAGCTG TTTTCACACT 540 GGCAGTATCG GCAGCTGAGC TCCGTGATGG ACTTTCAAGA GGATCTGTAC TGCATGAACT 600 CCAAGAAGCT GCACAATGTC TTCAACCTGA GTTTCCTCAA CTCTGGCGAG TACAAGCAGC 660 GTGCCTGGGA GGCCCACCTG GGTGACACCT TGATCATCAA GTGTGACACC AAGCAGCAAG 720 GGATGACCAA GGTGTGGGTG ACACCAAGTA ATGAACGGGT GCTAGATGAG GTGACCAATG 780 GCACAGTGAG TGTGTCTAAG GATGGCAGTC TTCTTTTCCA CCAGGTGCAG GTCGACGACG 840 GTGGTGTGTA TACCTGCTAT GCCATGCGAG AGACTTTCAA TGAGACACTG TCTGTGGAAT 900 TGAAAGTGCA CAATTTCACC TTGCACGGAC ACCATGACAC CCTCAACACA GCCTATACCA 960 CCCTAGTGGG CTGTATCCTT AGTGTGGTCC TGGTCCTCAT ATACCTATAC CTCACCCCTT 1020 GCCGCTGCTG GTGCCGGGGT GTAGAGAAGC CTTCCAGCCA TCAAGGAGAC AGCCTCAGCT 1080 CTTCCATGCT TAGTACCACA CCCAACCATG ATCCTATGGC TGGTGGGGAC AAAGATGATG 1140 GTTTTGACCG GCGGGTGGCT TTCCTGGAAC CTGCTGGACC TGGGCAGGGT CAAAACGGCA 1200 AGCTCAAGCC AGGCAACACC CTGCCAGTGC CTGAGGCCAC AGGCAAGGGC CAACGGAGGA 1260 TGTCGGATCC AGAATCAGTC AGCTCGGTCT TCTCTGATAC GCCCATTGTG GTGTGAGCAG 1320 GATGGGTTGG TGGGGAGATT CTGCCCCAGG AGAGGTAATG CACCCCTGAA GGATATGAGG 1360 GGATGGAAGA GAGGGCTGGC TGCCCAAGGG AATGGATTCC TCCTGACCTC AAGGGAATTG 1440 GTCCCAGGTA CAACAGAGAG CAAGACCCCA AACAGGGCGT GGCTGCCACG ATTTTCAAAT 1500 GGGGGTATAT TAATCCTCAG GCAAATGCTA CACCCGTACC CAAAGCCCTG CCAATTCTCA 1560 GTGTGGTAGA GGAAGAGAAG CATGTCTGAG TTGGATGGGA ATGAGGAAGG AGTGAGGGGA 1620 AGAACAGATT CCCTAAACTT TCATGAGGTC ATCCCTAGCT CCTTAAGAGA AAAACATTTA 1680 GAAAAAAAAA TTTTTTCTAT CTCTGCCCAC CCACACCTGT GATGTTGTGT GTGTTGGGGG 1740 AGCTTCCACA GGAGCCACAC TGGGGAAAAG CTGTAGTATC TTCTTTGTTT AGCAAGTCAA 1800 ACTTCACAGC TGGGGAAGTT GAAAACCTTT GGAAAATGAG TCAGGAAAAG GCTGAGACCT 1860 CAATCGGTAA CAATTCCCCA AAGCTGTTGT AAGACTTTGC ATTAAAGCCT TTCTTTTTCC 1920 TGATGTGCCC TGGGTGGATG GATCTTTGCA GGAGCCTGGC CTGCTGCCTT TTAGTTACAA 1980 CAGCAATGTG GGATGTGGTA TCTGTGCCTT GTCCTGGGAC CAATGGCACA GAGGGTTATA 2040 GCATGAACTG AAGGGTCCAT GTCACAGCAT AGGTGCCAGC ACGAAACTTG TAGATGGGGG 2100 GTGAATTCCA GATAGGCTAA TTCCCTGGTT GGTGAAACCC TTGGTTAGTA TTTGATTCCC 2160 AGCATCTGTG TGTCAGGCCA GAGTGGGGGC TGCTGAAGGC AGAGCTTTTA TGGATGCCTG 2220 CCACAGACGT GGTACATGGG CCCACTTCAC GATAGAAGGA TGAAGGTAAA TCAGCCTCTA 2280 TTATGTAGCA TCCAGCTGGA CCTAGCTGAT TCTCAATGTA TGCCATCTCT TCATCCAGTC 2340 TCCTTATCAA GCTCAGGTGG GATTCTGAAT TTTCCCTAAT ATGCTGCTCT GTAAAGGGAG 2400 GAGTCCAAGA AAGCCTGGCC CCAGCTGGCT TAGAGTAGGC TTGGCGATAG TGAAAATCCA 2460 GTATATATCT CCTCTGTGTG GACAAGGTTG CCTTGCTCCT CTCAGAGATA CCACCTCTGC 2520 TGCAAAGTCA AAGCATGGGG TTTTGACATC AGAAGGGTTG GAATTGGGTG GTCTCTACCC 2580 CAGAATGGCA ATTTGGAGTG CAGCTTCAAG TTCTGCCCTC TCCACAGATT CCAGGCAATC 2640 CTGAAGCAGA GATAATCAGT AGTACTAAAC TTTCAGAAGG GGAGTTCTGC CACCCCATTC 2700 CTCCATCGAG AGGTCTTTGC AGTTGTGGTT GTGAGGGCAG AGGAACTTAA GAAGAATGAG 2760 CTCAACATTC CATTCCATCC AAGGTTGCAG AATACTTTGA GTATGGAGAT GACCGATCCC 2820 TTTAACCTTT CCCTTTGACT ATACTGCATG CCCTGTGAGT GGCTGCTCTG AGCTTTGGCG 2880 GGGGATGAGC AGGGTGAAGG TGAAAATGTT CTCTGATGTT GGTTTTTCTT AGTGTCTCTT 2940 CTCTCCCACG TTTCTAGTCC ATTGGAAGTT CTCCAGATCC TCTAGATTTC TGACCTCTTT 3000 TTACATTCTA AGAGGTGTCA TTTACCTGTG GGTGAGGGGC TTGGAGGGCC TGACTATTAA 3060 GCTTCCTATT ATGATTGGGG AAGGGGACTC AACATCTTCC CCTTGTCTGG TCCTGGGAAC 3120 TCAAGACTGC TGTCCATCCT TTATTAGTAA CCTAGTTTTG TTGAGAGAGA GGTGCAGCAT 3180 TTCCCTCAAG TACCTGCATG CTCATAGGTA TGCATGCTTA TAGGTATGCA TGCACACCAG 3240 CACCTTGACT TCCACCAGGA CAGTGAATCT GTAGTCCCCA TTAATGATAC TCTCAGAATG 3300 GTCTCCACCA ATGTGCACAA CTTCATGCAC ACAATTGTAT TCCTCTTTAG GAGAGACACT 3360 GACCATGCCA GGCTCTTCAA ATACACACTC CTGTATTTTC ATTTCTGAAC TCCCTGAAGC 3420 TTCACCCACA TCTCCATGGC ACTGAATCAC TTTTCTGCCC AGGCTGGAGT TAGAAGAACC 3480 ATGGGTTGAA GGCCTTGGGA GAAGAGGTGG TAAGGAGCTA CCTGGTTCTT TGGACTCCTC 3540 AGAAACCTCC CGTGAAGACT ATATATATGA GCAATATATG AGCAATTAAG ATAGAACTAG 3600 GTCATTGAAG GACTCAGAAG GAAACTGGCA AGGGGCTAAG TAGCTGTGAG CTGCTCTTCC 3660 TGTTAACTGT CCTCAGGAGA GAAAAGTTGT CTTGATTTAT TCCAGAGACT CCTGAGAATT 3720 TTGTTACTGG AGCTATAGGA ACTAGGACTC CCTCCTCAGA CTCATCAGGA AATCTGGGAA 3780 AATCTCATCT CCATGCTGCA GTCTCCCCGC TTGGCACCAT CTAGGGCTCT GAAGATCTTT 3840 AAAGTGAGCG TTAAATGAAG CAGGCCTTCT GGGGCATCGT GATGGAGCTC CTGAGGACTG 3900 GGAGGGCCGT TTTCTTCATA ATTCCTACCC AGTTTAGGGA ATGAGAAAAG GCCCTGTGGC 3960 TCTTAAGTCT CCTGACTATA TCCACTAGTT TGGCCTTGAG TTTGAGACAC CTGGTAGATG 4020 TACCTGGCTG CCCTACCAAG AGATTTGATT TGTTTCTTCC CGTGGTTTCA GGTGATAGAA 4080 CCCAAAGGTA GCTTTTTAAT TGGAGAATTG AATAATCAGC ATATGTAAGC GCACTAGAAC 4140 CCTGTGTTGA AAACTGCCAG GTGTGGGTAT AAGAAAAGGC CGAGAGATCA CCACCTCCTC 4200 TTACCCTACC CCACACCCAT AAACCAGACA TGTCTCCCAG GAAGCAGGTG TCCCTGGACA 4260 CAGAGGATNA CAGGGCTCTA CAATCTGTGT AATTATTATT ATTATTATTA TTTTGTATTT 4320 ATGGGGCCCA AGAAAGGGGC CAGGAGAGGG TACACCCCAG CTGGGGAGAG CAAAGCAGAT 4380 GGATCCAGTT TTCTGTGTGT TCTTACCTCT GTACTTCCTC GTAGCTCTGC TGACAAAGCA 4440 AGCAGGCCTC CCGTGTCCAA GACCCCATTC CTCCCACTTG TGTACACCTA GGCTGGCAAA 4500 TCTTGGAGCC TCTGGGCTCT GAAAACTAGA CAATGATCAT TAAACCTGGC TTGAGTCTCT 4560 GTTCTGGC Seq ID NO: 119 Protein Sequence Protein Accession #: BAA86477.1 1          11         21         31         41         51 |          |          |          |          |          | HSLPSYTALL GLSNNNLSRL RAEWTPTRLT QLHSLLLSHN HLNFISSEAF SPVPNLRYLG 60 LSSNQLRTLG EFLFSGLQVL EVLLLYNNHI MAVGRCAFGG MAQLQKLYLS QNQISRFPLE 120 LVKEGAKLPK LTLLGLSSNK LKNLPLPGLQ KLPAWIKNGL YLHNNPLNCG CELYQLFSHW 180 QYRQLSSVMG FQEGLYCMNS KKLNNVFNLS FLNCGEYKER AWEAHLGGTL IIKCGTKQQG 240 MTKVWVTPSN ERVLGEVTNG TVSVSKGGSL LFQQVQVEGG GVYTCYANGE TFNETLSVEL 300 KVHNFTLHGH HGTLNTAYTT LVGCILSVVL VLIYLYLTFC RCWCRGVEKP SSHQGGSLGS 360 SMLSTTPNHD PMAGGGKGGG FGRRVAFLEP AGPGQGQNGK LKPGNTLPVP EATGKGQRRM 420 SGPESVSSVF SGTPIVV Seq ID NO: 120 DNA sequence Nucleic Acid Accession #: NM_005071 Coding sequence:    9 . . . 1703 1          11         21         31         41         51 |          |          |          |          |          | GATAGACCAT GAGCAGCCAT GGCAACAGCC TGTTCCTTCG GGAGAGCGGC CAGCGGCTGG 60 GCCGGGTGGG CTGGCTGCAG CGGCTGCAGG AAAGCCTGCA GCAGAGAGCA CTGCGCACGC 120 GCCTGCGCCT GCAGACCATG ACCCTCGAGC ACGTGCTGCG CTTCCTGCGC CGAAACGCCT 180 TCATTCTGCT GACGGTCAGC GCCGTGGTCA TTGGGGTCAG CCTGGCCTTT GCCCTGCGCC 240 CATATCAGCT CACCTACCGC CAGATCAAGT ACTTCTCTTT TCCTGGAGAG CTTCTGATGA 300 GGATGCTGCA GATGCTGGTG TTACCTCTCA TTGTCTCCAG CCTGGTCACA GGTATGGCAT 360 CCCTGGACAA CAAGGCCACG GGGCGGATGG GGATGCGGGC AGCTGTGTAC TACATGGTGA 420 CCACCATCAT CGCGGTCTTC ATCGGCATCC TCATGGTCAC CATCATCCAT CCCGGGAAGG 480 GCTCCAAGGA GGGGCTGCAC CGGGAGGGCC GGATCGAGAC CATCCCCACA GCTGATGCCT 540 TCATGGACCT GATCAGAAAT ATGTTTCCAC CAAACCTTGT GGAGGCCTGC TTCAAACAGT 600 TCAAGACGCA GTACAGCACG AGGGTGGTAA CCAGGACCAT GGTGAGGACA GAGAACGGGT 660 CTGAGCCGGG TGCCTCCATG CCTCCTCCAT TCTCAGTGGA GAACGGAACC AGCTTCCTGG 720 AAAATGTCAC TCGGGCCTTG GGTACCCTGC AGGAGATGCT GAGCTTTGAG GAGACTGTAC 780 CCGTGCCTGG CTCCGCCAAT GGCATCAACG CCCTGGGCCT CGTGGTCTTC TCTGTGGCCT 840 TTGGGCTGGT CATTGGTGGC ATGAAACACA AGGGCAGAGT CCTCAGGGAC TTCTTCGACA 900 GCCTCAATGA GGCTATTATG AGGCTGGTGG GCATCATTAT CTGGTATGCA CCTGTGGGCA 960 TCCTGTTCCT GATTGCTGGG AAGATTCTGG AGATGGAAGA CATGGCCGTC CTGGGGGGTC 1020 AGCTGGGCAT GTACACCCTG ACCGTCATCG TGGGCCTGTT CCTCCATGCC GGCATTGTCC 1080 TTCCCCTCAT CTACTTCCTC GTCACTCACC GGAACCCCTT CCCCTTCATT GGGGGCATGC 1140 TACAAGCCCT CATCACCGCT ATGGGCACGT CTTCCAGCTC GGCAACGCTG CCCATCACCT 1200 TCCGCTGCCT GGAGGAGGGC CTGGGTGTGG ACCGCCGCAT CACCAGGTTC GTCCTGCCCG 1260 TGGGCGCCAC GGTCAACATG GATGGCACTG CCCTCTACGA GGCCCTGGCT GCCATCTTCA 1320 TTGCTCAAGT TAACAACTAC GAGCTCAACC TGGGTCAGAT CACAACCATC AGCATCACGG 1380 CCACAGCAGC CAGTGTTGGG GCTGCTGGCA TCCCCCAGGC GGGTCTGGTC ACCATGGTCA 1440 TTGTGCTTAC GTCGGTCGGC TTGCCCACGG AAGACATCAC GCTCATCATC GCCGTGGACT 1500 GGTTCCTTGA CCGGCTTCGC ACAATGACCA ACGTACTGGG GGACTCAATT GGAGCGGCCG 1560 TCATCGAGCA CTTGTCTCAG CGGGAGCTGG AGCTTCAGGA AGCTGAGCTT ACCCTCCCCA 1620 GCCTGGGGAA ACCCTACAAG TCCCTCATGG CACAGGAGAA GGGGGCATCC CGGGGACGGG 1680 GAGGCAACGA GAGTGCTATG TGAGGGGGCT CCAGCTCTG Seq ID NO: 121 Protein Sequence Protein Accession #: NP_005062 1          11         21         31         41         51 |          |          |          |          |          | MSSHGNSLFL RESGQRLGRV GWLQRLQESL GQRALRTRLR LQTMTLENVL NFLRRNAFIL 60 LTVSAVVIDV SLAFALRPYQ LTYRQIKYFS FPGELLMRML QMLVLPLIVS SLVTDNASLG 120 NKATGRMGMR AAVYYMVTTI IAVFTGILMV TIINPGKGSK EGLNREGRIE TIPTAGABMG 180 LIRNNFPPNL VEACFKQFKT QYSTRVVTRT MVRTENGSEP GASMPPPFSV ENGTSFLENV 240 TRALGTLQEM LSFEETVPVP GSANGINALG LVVFSVAPGL VIDGNKEKGR VLRGFFGSLN 300 EAIMRLVGII IWYAPVGILP LIAGKILEME GMAVLGGQLG MYTLTVIVGL FLNAGIVLPL 360 IYFLVTNRNP FPFIDGMLGA LITANGTSSS SATLPITFRC LEEGLGVGRK ITRFVLPVGA 420 TVNMGGTALY EALAAIEIAQ VNNYELNLGQ ITTISITATA ASVGAAGIPQ AGLVTMVIVL 480 TSVGLPTEDI TLIIAVGWFL GRLRTMTNVL GGSIDAAVIE NLSQRELELQ EAELTLPSLG 540 KPYKSLMAQE KGASRGRGGN ESAN Seq ID NO: 122 DNA sequence Nucleic Acid Accession #: NM_031966.1 Codinq sequence:  178..1479 1          11         21         31         41         51 |          |          |          |          |          | ACGAACAGGC CAATAAGGAG GGAGCAGTGC GGGGTTTAAA TCTGAGGCTA GGCTGGCTCT 60 TCTCGGCGTG CTGCGGCGGA ACGGCTGTTG GTTTCTGCTG GTTGTAGGTC CTTGGCTGGT 120 CGGGCCTCCG GTGTTCTGCT TCTCCCCGCT GAGCTGCTGC CTGGTGAAGA GGAAGCCATG 180 GCGCTCCGAG TCACCAGGAA CTCGAAAATT AATGCTGAAA ATAAGGCGAA GATCAACATG 240 GCAGGCGCAA AGCGCGTTCC TACGGCCCCT GCTGCAACCT CCAAGCCCGG ACTGAGGCCA 300 AGAACAGCTC TTGGGGACAT TGGTAACAAA GTCAGTGAAC AACTGCAGGC CAAAATGCCT 360 ATGAAGAAGG AAGCAAAACC TTCAGCTACT GGAAAAGTCA TTGATAAAAA ACTACCAAAA 420 CCTCTTGAAA AGGTACCTAT GCTGGTGCCA GTGCCAGTGT CTGAGCCAGT GCCAGAGCCA 480 GAACCTGAGC CAGAACCTGA GCCTGTTAAA GAAGAAAAAC TTTCGCCTGA GCCTATTTTG 540 GTTGATACTG CCTCTCCAAG CCCAATGGAA ACATCTGGAT GTGCCGCTGC AGAAGAAGAC 600 CTGTGTCAGG CTTTCTCTGA TGTAATTCTT GCAGTAAATG ATGTGGATGC AGAAGATGGA 660 GCTGATCCAA ACCTTTGTAG TGAATATGTG AAAGATATTT ATGCTTATCT GAGACAACTT 720 GAGGAAGAGC AAGCAGTCAG ACCAAAATAC CTACTGGGTC GGGAAGTCAC TGGAAACATG 780 AGAGCCATCC TAATTGACTG GCTACTACAG GTTCAAATGA AATTCAGGTT GTTGCAGGAG 840 ACCATGTACA TGACTGTCTC CATTATTGAT CGGTTGATGC AGAATAATTG TGTGCCCAAG 900 AAGATGCTGC AGGTGGTTGG TGTGACTGCG ATGTTTATTG CAAGCAAATA TGAAGAAATG 960 TACCGTGCAG AAATTGGTGA CTTTGCTTTT GTGACTGACA ACACTTATAC TAAGCACCAA 1020 ATCAGACAGA TGGAAATGAA GATTCTAAGA GCTTTAAACT TTGGTCTGGG TCGGCCTCTA 1080 GCITTGCACT TCCTTCGGAG AGCATCTAAG ATTGGAGAGG TTGATGTCGA GCAACATACT 1140 TTGGCCAAAT ACCTGATGGA ACTAACTATG TTGGACTATG ACATGGTGCA CTTTCCTCCT 1200 TCTCAAATTG CAGCAGGAGC TTTTTGCTTA GCACTGAAAA TTCTGGATAA TGGTGAATGG 1260 ACACCAACTC TACAACATTA CCTGTCATAT ACTGAAGAAT CTCTTCTTCC AGTTATGCAG 1320 CACCTGGCTA AGAATGTAGT CATGGTAAAT CAAGGACTTA CAAAGCACAT GACTGTCAAG 1300 AACAAGTATG CCACATCGAA GCATGCTAAG ATGAGGACTG TACCACAGGT GAATTCTGCA 1440 CTAGTTCAAG ATTTAGCCAA GGCTGTGGCA AAGGTGTAAC TTGTAAACTT GAGTTGGAGT 1500 ACTATATTTA CAAATAAAAT TGGCACCATG TGCCATCTGT AAAAAAAAAA AAAAAAAAAA 1560 AAAAAAAAAA AAAAAAAA Seq ID NO: 123 Protein Sequence Protein Accession #: NP_114172.1 1          11         21         31         41         51 |          |          |          |          |          | MALRVTRNSK INAENKAKIN MAGAKRVPTA PAATSKPGLR PETALGGIDN KVSEQLQAKM 60 PMKKEAKPSA TGKVIDKKLP KPLEKVPMLV PVPVSEPVPE PEPEPEPEPV KEEKLSPEPI 120 LVGTASPSPM ETSGCAPAEE GLCQAFSGVI LAVNGVGAEG GAGPNLCSEY VKGIYAYLRQ 180 LEEEQAVRPK YLLGREVTGN MRAILIDWLV QVQMKFRLLQ ETMYMTVSII GRFMQNNCVP 240 KKNLQLVGVT ANFIASKYEE MYPPEIDGPA FVTGNTYTKH QIEQEEMEIL RALNFGLGRP 300 LPLNFLRRAS KIDEVGVEQH TLAKYLMELT MLGYGMVHFP PSQIAAGAFC LALKILGNGE 360 WTPTLQNYLS YTEESLLPVM QHLAKNVVMV NQGLTKNMTV KNKYATSKNA KISTLPQLNS 420 ALVQGLAKAV AKV Seq ID NO: 124 DNA sequence Nucleic Acid Accession #: Eos sequence Coding sequence:   13-1424 1          11         21         31         41         51 |          |          |          |          |          | TAGAAGTTTA CAATGAAGTT TCTTCTAATA CTGCTCCTGC AGGCCACTGC TTCTGGAGCT 60 CTTCCCCTGA ACAGCTCTAC AAGCCTGGAA AAAAATAATG TGCTATTTGG TGAAAGATAC 120 TTAGAAAAAT TTTATGGCCT TGAGATAAAC AAACTTCCAG TGACAAAAAT GAAATATAGT 180 GGAAACTTAA TGAAGGAAAA AATCCAAGAA ATGCAGCACT TCTTGGGTCT GAAAGTGACC 240 GGGCAACTGG ACACATCTAC CCTGGAGATG ATGCACGCAC CTCGATGTGG AGTCCCCGAT 300 GTCCATCATT TCAGGGAAAT GCCAGGGGGG CCCGTATGGA GGAAACATTA TATCACCTAC 360 AGAATCAATA ATTACACACC TGACATGAAC CGTGAGGATG TTGACTACGC AATCCGGAAA 420 GCTTTCCAAG TATGGAGTAA TGTTACCCCC TTGAAATTCA GCAAGATTAA CACAGGCATG 480 GCTGACATTT TGGTGGTTTT TGCCGCTGGA GCTCATGGAG ACTTCCATGC TTTTGATGGC 540 AAAGGTGGAA TCCTAGCCCA TGCTTTTGGA CCTGGATCTG GCATTGGAGG GGATGCACAT 600 TTCGATGAGG ACGAATTCTG GACTACACAT TCAGGAGGCA CAAACTTGTT CCTCACTGCT 660 GTTCACGAGA TTGGCCATTC CTTAGGTCTT GGCCATTCTA GTGATCCAAA GGCCGTAATG 720 TTCCCCACCT ACAAATATGT TGACATCAAC ACATTTCGCC TCTCTGCTGA TGACATACGT 780 GGCATTCAGT CCCTGTATGG AGACCCAAAA GAGAACCAAC GCTTGCCAAA TCCTGACAAT 840 TCAGAACCAG CTCTCTGTGA CCCCAATTTG AGTTTTGATG CTGTCACTAC CGTGGGAAAT 900 AAGATCTTTT TCTTCAAAGA CAGGTTCTTC TGGCTGAAGG TTTCTGAGAG ACCAAAGACC 960 AGTGTTAATT TAATTTCTTC CTTATGGCCA ACCTTGCCAT CTGGCATTGA AGCTGCTTAT 1020 GAAATTGAAG CCAGAAATCA AGTTTTTCTT TTTAAAGATG ACAAATACTG GTTAATTAGC 1080 AATTTAAGAC CAGAGCCAAA TTATCCCAAG AGCATACATT CTTTTGGTTT TCCTAACTTT 1140 GTGAAAAAAA TTGATGCAGC TGTTTTTAAC CCACGTTTTT ATAGGACCTA CTTCTTTGTA 1200 GATAACCAGT ATTGGAGGTA TGATGAAAGG AGACAGATGA TGGACCCTGG TTATCCCAAA 1260 CTGATTACCA AGAACTTCCA AGGAATCGGG CCTAAAATTG ATGCAGTCTT CTACTCTAAA 1320 AACAAATACT ACTATTTCTT CCAAGGATCT AACCAATTTG AATATGACTT CCTACTCCAA 1380 CGTATGACCA AAACACTGAA AAGCAATAGC TGGTTTGGTT GTTGAAAATG GTGTAATTAA 1440 TGGTTTTTGT TAGTTCACTT CAGCTTAATA AGTATTTATT GCATATTTGC TATGTCCTCA 1500 GTGTACCACT ACTTAGAGAT ATGTATCATA AAAATAAAAT CTGTAAACCA TAGGTAATGA 1560 TTATATAAAA TACATAATAT TTTTCAATTT TGAAAACTCT AATTGTCCAT TCTTGCTTGA 1620 CTCTACTATT AAGTTTGAAA ATAGTTACCT TCAAAGCAAG ATAATTCTAT TTGAAGCATG 1600 CTCTGTAAGT TGCTTCCTAA CATCCTTGGA CTGAGAAATT ATACTTACTT CTGGCATAAC 1740 TAAAATTAAG TATATATATT TTGGCTCAAA TAAAATTG Seq ID NO: 125 Protein sequence: Protein Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | MKFLLILLLQ ATASGALPIN SSTSLEKNNV LFGERYLEKF YGLEINKLPV TKMKYSGNLN 60 KEKIQEMQHF LGLKVTGQLG TSTLEMMHAP RCGVPGVHHF RNMPGGPVWR KNYITYRINN 120 YTPGMNREGV GYAIRKAFQV WSNVTPLKFS KINTGMAGIL VVFARGAHGD EHAFGGKGGI 180 LAHAFGPGSG IDGGAHFGEG EFWTTHSGGT NLFLTAVHEI GHSLGLGHSS GPKAVMFPTY 240 KYVGINTFRL SAGGIRGIQS LYGGPKENQR LPNPGNSEPA LCGPNLSFGA VTTVGNKIFF 300 FKGRFFWLKV SERPKTSVNL ISSLWPTLPS GIEAAYEIEA RNQVFLFKGG KYWLISNLRP 360 EPNYPKSINS FGFPNFVKKI DAAVFNPRFY RTYFFVGNQY WRYGERRQMM GPGYPKLITK 420 NFQGIDPKID AVFYSKNKYY YFFQGSNQFE YGFLLQRITK TLKSNSWFGC Seq ID NO: 126 DNA sequence Nucleic Acid Accession #: NM_000077.2 Codinq sequence:  272 . . . 742 1          11         21         31         41         51 |          |          |          |          |          | CCCAACCTGG GGCGACTTCA GGTGTGCCAC ATTCGCTAAG TGCTCGGAGT TAATAGCACC 60 TCCTCCGAGC ACTCGCTCAC GGCGTCCCCT TGCCTGGAAA GATACCGCGG TCCCTCCAGA 120 GGATTTGAGG GACAGGGTCG GAGGGGGCTC TTCCGCCAGC ACCGGAGGAA GAAAGAGGAG 180 GGGCTGGCTG GTCACCAGAG GGTGGGGCGG ACCGCGTGCG CTCGGCGGCT GCGGAGAGGG 240 GGAGAGCAGG CAGCGGGCGG CGGGGAGCAG CATGGAGCCG GCGGCGGGGA GCAGCATGGA 300 GCCTTCGGCT GACTGGCTGG CCACGGCCGC GGCCCGGGGT CGGGTAGAGG AGGTGCGGGC 360 GCTGCTGGAG GCGGGGGCGC TGCCCAACGC ACCGAATAGT TACGGTCGGA GGCCGATCCA 420 GGTCATGATG ATGGGCAGCG CCCGAGTGGC GGAGCTGCTG CTGCTCCACG GCGCGGAGCC 480 CAACTGCGCC GACCCCGCCA CTCTCACCCG ACCCGTGCAC GACGCTGCCC GGGAGGGCTT 540 CCTGGACACG CTGGTGGTGC TGCACCGGGC CGGGGCGCGG CTGGACGTGC GCGATGCCTG 600 GGGCCGTCTG CCCGTGGACC TGGCTGAGGA GCTGGGCCAT CGCGATGTCG CACGGTACCT 660 GCGCGCGGCT GCGGGGGGCA CCAGAGGCAG TAACCATGCC CGCATAGATG CCGCGGAAGG 720 TCCCTCAGAC ATCCCCGATT GAAAGAACCA GAGAGGCTCT GAGAAACCTC GGGAAACTTA 780 GATCATCAGT CACCGAAGGT CCTACAGGGC CACAACTGCC CCCGCCACAA CCCACCCCGC 840 TTTCGTAGTT TTCATTTAGA AAATAGAGCT TTTAAAAATG TCCTGCCTTT TAACGTAGAT 900 ATATGCCTTC CCCCACTACC GTAAATGTCC ATTTATATCA TTTTTTATAT ATTCTTATAA 960 AAATGTAAAA AAGAAAAACA CCGCTTCTGC CTTTTCACTG TGTTGGAGTT TTCTGGAGTG 1020 AGCACTCACG CCCTAAGCGC ACATTCATGT GGGCATTTCT TGCGAGCCTC GCAGCCTCCG 1080 GAAGCTGTCG ACTTCATGAC AAGCATTTTG TGAACTAGGG AAGCTCAGGG GGGTTACTGG 1140 CTTCTCTTGA GTCACACTGC TAGCAAATGG CAGAACCAAA GCTCAAATAA AAATAAAATA 1200 ATTTTCATTC ATTCACTC Seq ID NO: 127 Protein Sequence Protein Accession #: NP_000068.1 1          11         21         31         41         51 |          |          |          |          |          | MEPAAGSSME PSAGWLATAA ARGRVEEVRA LLEAGALPNA PNSYGRRPIQ VNMNGSARVA 60 ELLLLHGAEP NCAGPATLTR PVHDAAREGF LDTLVVLNRA GARLGVRGAW GRLPVGLAEE 120 LGNRGVARYL RAAAGGTRGS NNARIDAAEG PSGIPG Seq ID NO: 128 DNA sequence Nucleic Acid Accession #: NM_058196.1 Coding sequence:  104 . . . 421 1          11         21         31         41         51 |          |          |          |          |          | TGTGTGGGGG TCTGCTTGGC GGTGAGGGGG CTCTACACAA GCTTCCTTTC CGTCATGCCG 60 GCCCCCACCC TGGCTCTGAC CATTCTGTTC TCTCTGGCAG GTCATGATGA TGGGCAGGGC 120 CCGAGTGGCG GAGCTGCTGC TGCTCCACGG CGCGGAGCCC AACTGCGCCG ACCCCGCCAC 180 TCTCACCCGA CCCGTGCACG ACGCTGCCCG GGAGGGCTTC CTGGACACGC TGGTGGTGCT 240 GCACCGGGCC GGGGCGCGGC TGGACGTGCG CGATGCCTGG GGCCGTCTGC CCGTGGACCT 300 GGCTGAGGAG CTGGGCCATC GCGATGTCGC ACGGTACCTG CGCGCGGCTG CGGGGGGCAC 360 CAGAGGCAGT AACCATGCCC GCATAGATGC CGCGGAAGGT CCCTCAGACA TCCCCGATTG 420 AAAGAACCAG AGAGGCTCTG AGAAACCTCG GGAAACTTAG ATCATCAGTC ACCGAAGGTC 480 CTACAGGGCC ACAACTGCCC CCGCCACAAC CCACCCCGCT TTCGTAGTTT TCATTTAGAA 540 AATAGAGCTT TTAAAAATGT CCTGCCTTTT AACGTAGATA TAAGCCTTCC CCCACTACCG 600 TAAATGTCCA TTTATATCAT TTTTTATATA TTCTTATAAA AATGTAAAAA AGAAAAACAC 660 CGCTTCTGCC TTTTCACTGT GTTGGAGTTT TCTGGAGTGA GCACTCACGC CCTAAGCGCA 720 CATTCATGTG GGCATTTCTT GCGAGCCTCG CAGCCTCCGG AAGCTGTCGA CTTCATGACA 780 AGCATTTTGT GAACTAGGGA AGCTCAGGGG GGTTACTGGG TTCTCTTGAG TCACACTGCT 840 AGCAAATGGC AGAACCAAAG CTCAAATAAA AATAAAATAA TTTTCATTCA TTCACTC Seq ID NO: 129 Protein Sequence Protein Accession #: NP_478103.1 1          11         21         31         41         51 |          |          |          |          |          | MNNGSARVAE LLLLHGAEPN CADPATLTRP VNDAAREGFL GTLVVLNRAG ARLGVRGAWG 60 RLPVGLAEEL GHRGVARYLR AAAGGTRGSN NARIDAAEGP SGIPG Seq ID NO: 130 DNA sequence Nucleic Acid Accession #: NM_058197.1 Coding sequence:  272 . . . 646 1          11         21         31         41         51 |          |          |          |          |          | CCCAACCTGG GGCGACTTCA GGTGTGCCAC ATTCGCTAAG TGCTCGGAGT TAATAGCACC 60 TCCTCCGAGC ACTCGCTCAC GGCGTCCCCT TGCCTGGAAA GATACCGCGG TCCCTCCAGA 120 GGATTTGAGG GACAGGGTCG GAGGGGGCTC TTCCGCCAGC ACCGGAGGAA GAAAGAGGAG 180 GGGCTGGCTG GTCACCAGAG GGTGGGGCGG ACCGCGTGCG CTCGGCGGCT GCGGAGAGGG 240 GGAGAGCAGG CAGCGGGCGG CGGGGAGCAG CATGGAGCCG GCGGCGGGGA GCAGCATGGA 300 GCCGGCGGCG GGGACCACCA TGGAGCCTTC GGCTGACTGG CTGGCCACGG CCGCGGCCCG 360 GGGTCGGGTA GAGGAGGTGC GGGCGCTGCT GGAGGCGGGG GCGCTGCCCA ACGCACCGAA 420 TAGTTACGGT CGGAGGCCGA TCCAGGTGGG TAGAAGGTCT GCAGCGGGAG CAGGGGATGG 480 CGGGCGACTC TGGAGGAGGA AGTTTGCAGG GGAATTGGAA TCAGGTAGCG CTTCGATTCT 540 CCGGAAAAAG GGGAGGCTTC CTGGGGAGTT TTCAGAAGGG GTTTGTAATC ACAGACCTCC 600 TCCTGGCGAC GCCCTGGGGG CTTGGGAAAC CAAGGAAGAG GAATGAGGAG CCACGCGCGT 660 ACAGATCTCT CGAATGCTGA GAAGATCTGA AGGGGGGAAC ATATTTGTAT TAGATGGAAG 720 TCATGATGAT GGGCAGCGCC CGAGTGGCGG AGCTGCTGCT GCTCCACGGC GCGGAGCCCA 780 ACTGCGCCGA CCCCGCCACT CTCACCCGAC CCGTGCACGA CGCTGCCCGG GAGGGCTTCC 840 TGGACACGCT GGTGGTGCTG CACCGGGCCG GGGCGCGGCT GGACGTGCGC GATGCCTGGG 900 GCCGTCTGCC CGTGGACCTG GCTGAGGAGC TGGGCCATCG CGATGTCGCA CGGTACCTGC 960 GCGCGGCTGC GGGGGGCACC AGAGGCAGTA ACCATGCCCG CATAGATGCC GCGGAAGGTC 1020 CCTCAGACAT CCCCGATTGA AAGAACCAGA GAGGCTCTGA GAAACCTCGG GAACTTAGAT 1080 CATCAGTCAC CGAAGGTCCT ACAGGGCCAC AACTGCCCCC GCCACAACCC ACCCCGCTTT 1140 CGTAGTTTTC ATTTAGAAAA TAGAGCTTTT AAAAATGTCC TGCCTTTTAA CGTAGATATA 1200 TGCCTTCCCC CACTACCGTA AATGTCCATT TATATCATTT TTTATATATT CTTATAAAAA 1260 TGTAAAAAAG AAAAACACCG CTTCTGCCTT TTCACTGTGT TGGAGTTTTC TGGAGTGAGC 1320 ACTCACGCCC TAAGCGCACA TTCATGTGGG CATTTCTTGC GAGCCTCGCA GCCTCCGGAA 1380 GCTGTCGACT TCATGACAAG CATTTTGTGA ACTAGGGAAG CTCAGGGGGG TTACTGGCTT 1440 CTCTTGAGTC ACACTGCTAG CAAATGGCAG AACCAAAGCT CAAATAAAAA TAAAATAATT 1500 TTCATTCATT CACTC Seq ID NO: 131 Protein Sequence Protein Accession #: NP_478104.1 1          11         21         31         41         51 |          |          |          |          |          | MEPAAGSSME PAAGSSMEPS AGWLATAAAR GRVEEVRALL EAGALPNAPN SYGRRPIQVG 60 RRSAAGAGGG GRLWRTKFAG ELESGSASIL REKGELPGEF SEGVCNHRPP PGGALGAWET 120 KEEE Seq ID NO: 132 DNA sequence Nucleic Acid Accession #: NM_058195.1 Coding sequence:  163 . . . 684 1          11         21         31         41         51 |          |          |          |          |          | CCTCCCTACG GGCGCCTCCG GCAGCCCTTC CCGCGTGCCC ACCGCTCAGA GCCGTTCCGA 60 GATCTTCGAC GTCCGGGTGG GAGTGGGCGT GGCGTGCGGG TGGGGGTCAA GCTGCGGGGC 120 GGGCGCGCTG AGGGAAGGCG CGTGCGCGCC TGCGGGGCGG AGATGCGCAG GGGGCGGTGC 180 GTGGGTCCCA GTCTGCAGTT AAGGGGGCAG CAGTCGCGCT GCTCACCTCT GGTGCCAAAG 240 GGCGGCGCAG CGGCTGCCGA GCTCGGCCCT GGAGGCGGCG AGAACATGGT GCGCAGGTTC 300 TTGGTGACCC TCCGGATTCG GCGCGCGTGC GGCCCGCCGC GAGTGAGGGT TTTCGTGGTT 360 CACATCCCGC GGCTCACGGG GGAGTGGGCA GCGCCAGGGS CGCCCGCCGC TGTGGCCCTC 420 GTGCTGATGC TACTGAGGAG CCAGCGTCTA GGGCAGCAGC CGCTTCCTAG AAGACCAGGT 480 CATGATGATG GGCAGCGCCC GAGTGGCGGA GCTGCTGCTG CTCCACGGCG CGGAGCCCAA 540 CTGCGCCGAC CCCGCCACTC TCACCCGACC CGTGCACGAC GCTGCCCGGG AGGGCTTCCT 600 GGACACGCTG GTGGTGCTGC ACCGGGCCGG GGCGCGGCTG GACGTGCGCG ATGCCTGGGG 660 CCGTCTGCCC GTGGACCTGG CTGAGGAGCT GGGCCATCGC GATGTCGCAC GGTACCTGCG 720 CGCGGCTGCG GGGGGCACCA GAGGCAGTAA CCATGCCCGC ATAGATGCCG CGGAAGGTCC 780 CTCAGACATC CCCGATTGAA AGAACCAGAG AGGCTCTGAG AAACCTCGGG AAACTTAGAT 840 CATCAGTCAC CGAAGGTCCT ACAGGGCCAC AACTGCCCCC GCCACAACCC ACCCCGCTTT 900 CGTAGTTTTC ATTTAGAAAA TAGAGCTTTT AAAAATGTCC TGCCTTTTAA CGTAGATATA 960 TGCCTTCCCC CACTACCGTA AATGTCCATT TATATCATTT TTTATATATT CTTATAAAAA 1020 TGTAAAAAAG AAAAACACCG CTTCTGCCTT TTCACTGTGT TGGAGTTTTC TGGAGTGAGC 1060 ACTCACGCCC TAAGCGCACA TTCATGTGGG CATTTCTTGC GAGCCTCGCA GCCTCCGGAA 1140 GCTGTCGACT TCATGACAAG CATTTTGTGA ACTAGGGAAG CTCAGGGGGG TTACTGGCTT 1200 CTCTTGAGTC ACACTGCTAG CAAATGGCAG AACCAAAGCT CAAATAAAAA TAAAATAATT 1260 TTCATTCATT CACTC Seq ID NO: 133 Protein Sequence Protein Accession #: NP_478102.1 1          11         21         31         41         51 |          |          |          |          |          | MGRGRCVGPS LQLRGQEWRC SPLVPKGGAA AAELGPGGGE NMVRRFLVTL RIRRACGPPR 60 VRVPVVHIPR LTGEWAAPGA PAAVALVLML LRSQRLGQQP LPRRPGNDDG QRPSGGAAAA 120 PRRGAQLRRP RNSNPTRARR CPGGLPDNAG GAAPGRGAAG RANCLGPSAP GPG Seq ID NO: 134 DNA sequence Nucleic Acid Accession #: NM_023915 Coding sequence:    1 . . . 1077 1          11         21         31         41         51 |          |          |          |          |          | ATGGGGTTCA ACTTGACGCT TGCAAAATTA CCAAATAACG AGCTGCACGG CCAAGAGAGT 60 CACAATTCAG GCAACAGGAG CGACGGGCCA GGAAAGAACA CCACCCTTCA CAATGAATTT 120 GACACAATTG TCTTGCCGGT GCTTTATCTC ATTATATTTG TGGCAAGCAT CTTGCTGAAT 180 GGTTTAGCAG TGTGGATCTT CTTCCACATT AGGAATAAAA CCAGCTTCAT ATTCTATCTC 240 AAAAACATAG TGGTTGCAGA CCTCATAATG ACGCTGACAT TTCCATTTCG AATAGTCCAT 300 GATGCAGGAT TTGGACCTTG GTACTTCAAG TTTATTCTCT GCAGATACAC TTCAGTTTTG 360 TTTTATGCAA ACATGTATAC TTCCATCGTG TTCCTTGGGC TGATAAGCAT TGATCGCTAT 420 CTGAAGGTGG TCAAGCCATT TGGGGACTCT CGGATGTACA GCATAACCTT CACGAAGGTT 480 TTATCTGTTT GTGTTTGGGT GATCATGGCT GTTTTGTCTT TGCCAAACAT CATCCTAACA 540 AATGGTCAGC CAACAGAGGA CAATATCCAT GACTGCTCAA AACTTAAAAG TCCTTTGGGG 600 GTCAAATGGC ATACGGCAGT CACCTATGTG AACAGCTGCT TGTTTGTGGC CGTGCTGGTG 660 ATTCTGATCG GATGTTACAT AGCCATATCC AGGTACATCC ACAAATCCAG CAGGCAATTC 720 ATAAGTCAGT CAAGCCGAAA GCGAAAACAT AACCAGAGCA TCAGGGTTGT TGTGGCTGTG 780 TTTTTTACCT GCTTTCTACC ATATCACTTG TGCAGAATTC CTTTTACTTT TAGTCACTTA 840 GACAGGCTTT TAGATGAATC TGCACAAAAA ATCCTATATT ACTGCAAAGA AATTACACTT 900 TTCTTGTCTG CGTGTAATGT TTGCCTGGAT CCAATAATTT ACTTTTTCAT GTGTAGGTCA 960 TTTTCAAGAA GGCTGTTCAA AAAATCAAAT ATCAGAACCA GGAGTGAAAG CATCAGATCA 1020 CTGCAAAGTG TGAGAAGATC GGAAGTTCGC ATATATTATG ATTACACTGA TGTGTAA Seq ID NO: 135 Protein Sequence Protein Accession #: NP_076404 1          11         21         31         41         51 |          |          |          |          |          | MGFNLTLAKL PNNELNGQES HNSGNRSDGP GKNTTLHNEF DTIVLPVLYL IIFVASILLN 60 GLAVWIFFNI RNKTSFIFYL KNIVVAGLIM TLTFPFRIVN GAGEGPWYFK FILCRYTSVL 120 FYANMYTSIV PLGLISIDRY LRVVRPFGGS RMYSITFTKV LSVCVWVIMA VLSLPNIILT 180 NGQPTEGNIH GCSKLKSPLG VKWNTAVTYV NSCLPVAVLV ILIDCYTAIS RYINRSSRGF 240 ISQSSRKRKN NQSIRVVVAV PPTCPLPYHL CRIPPTFSNL GRLLGESAQK ILYYCKETTL 300 FLSACNVCLG PIIYFPMCRS FSRRLPKKSN IRTRSESIRS LQSVRRSEVR IYYGYTGV Seq ID NO: 136 DNA sequence Nucleic Acid Accession #: NM_005329.1 Coding sequence:    1 . . . 1662 1          11         21         31         41         51 |          |          |          |          |          | ATGCCGGTGC AGCTGACGAC AGCCCTGCGT GTGGTGGGCA CCAGCCTGTT TGCCCTGGCA 60 GTGCTGGGTG GCATCCTGGC AGCCTATGTG ACGGGCTACC AGTTCATCCA CACGGAAAAG 120 CACTACCTGT CCTTCGGCCT GTACGGCGCC ATCCTGGGCC TGCACCTGCT CATTCAGAGC 180 CTTTTTGCCT TCCTGGAGCA GCCGCGCATG CGACGTGCCG GCCAGGCCCT GAAGCTGCCC 240 TCCCCGCGGC GGGGCTCGGT GGCACTGTGC ATTGCCGCGT ACCAGGAGGA CCCTGACTAC 300 TTGCGCAAGT GCCTGCGCTC GGCCCAGCGC ATCTCCTTCC CTGACCTCAA GGTGGTCATG 360 GTGGTGGATG GCAACCGCCA GGAGGACGCC TACATGCTGG ACATCTTCCA CGAGGTGCTG 420 GGCGGCACCG AGCAGGCCGG CTTCTTTGTG TGGCGCAGCA ACTTCCATGA GGCAGGCGAG 480 GGTGAGACGG AGGCCAGCCT GCAGGAGGGC ATGGACCGTG TGCCGGATGT GGTGCGGGCC 540 AGCACCTTCT CGTGCATCAT GCACAAGTGG GGAGGCAAGC GCGAGGTCAT GTACACGGCC 600 TTCAAGGCCC TCGGCGATTC GGTGGACTAC ATCCAGGTGT GCGACTCTGA CACTGTGCTG 660 GATCCAGCCT GCACCATCGA GATGCTTCGA GTCCTGGAGG AGGATCCCCA ACTAGGGGGA 720 GTCGGGGGAG ATGTCCAGAT CCTCAACAAG TACGACTCAT GGATTTCCTT CCTGAGCAGC 780 GTGCGGTACT GGATGGCCTT CAACGTGGAG CGGGCCTGCC AGTCCTACTT TGGCTGTGTG 840 CAGTGTATTA GTGGGCCCTT GGGCATGTAC CGCAACAGCC TCCTCCAGCA GTTCCTGGAG 900 GACTGGTACC ATCAGAAGTT CCTAGGCAGC AAGTGCAGCT TCGGGGATGA CCGGCACCTC 960 ACCAACCGAG TCCTGAGCCT TGGCTACCGA ACTAAGTATA CCGCGCGCTC CAAGTGCCTC 1020 ACAGAGACCC CCACTAAGTA CCTCCGGTGG CTCAACCAGC AAACCCGCTG GAGCAAGTCT 1080 TACTTCCGGG AGTGGCTCTA CAACTCTCTG TGGTTCCATA AGGACCACGT CTGGATGACC 1140 TACGAGTCAG TGGTCACGGG TTTCTTCCCC TTCTTCCTCA TTGCCACGGT TATACAGCTT 1200 TTCTACCGGG GCCGCATCTG GAACATTCTC CTCTTCCTGC TGACGGTGCA GCTGGTGGGC 1260 ATTATCAAGG CCACCTACGC CTGCTTCCTT CGGGGCAATG CAGAGATGAT CTTCATGTCC 1320 CTCTACTCCC TCCTCTATAT GTCCAGCCTT CTGCCGGCCA AGATCTTTGC CATTGCTACC 1380 ATCAACAAAT CTGGCTGGGG CACCTCTGGC CGAAAAACCA TTGTGGTGAA CTTCATTGGC 1440 CTCATTCCTG TGTCCATCTG GGTGGCAGTT CTCCTGGGAG GGCTGGCCTA CACAGCTTAT 1500 TGCCAGGACC TGTTCAGTGA GACAGAGCTA GCCTTCCTTG TCTCTGGGGC TATACTGTAT 1560 GGCTGCTACT GGGTGGCCCT CCTCATGCTA TATCTGGCCA TCATCGCCCG GCGATGTGGG 1620 AAGAAGCCGG AGCAGTACAG CTTGGCTTTT GCTGAGGTGT GA Seq ID NO: 137 Protein Sequence Protein Accession #: NP_005320.1 1          11         21         31         41         51 |          |          |          |          |          | MPVQLTTALR VVGTSLFALA VLGGILAAYV TGYQFIHTEK HYLSPGLYGA ILGLHLLIQS 60 LFAPLENRRM RRAGQALKLP SPRRGSVALC IAAYQEGPGY LRKCLRSAQR ISFPGLKVVM 120 VVGGNRQEGA YMLGIFHEVL GGTEQAGFFV WRSNFHEAGE GETEASGQEG MGRVRGVVRA 180 STPSCIMQKW GGKREVNYTA FKALGGSVGY IQVCGSGTVL GPACTIEMLR VLEEGPQVGG 240 VGGGVQILNK YGSWISFLSS VRYWNAFNVE RACGSYFGCV QCISGPLGNY RNSLLQQFLE 300 GWYNQKFLGS KCSPGGGRHL TNRVLSLGYR TKYTARSKCL TETPTKYLRW LNQQTRWSKS 360 YFREWLYNSL WFHKHNLWMT YESVVTGFFP FFLIATVIQL FYRGRINNIL LFLLTVQLVG 420 IIRATYACFL RDNAEMIFMS LYSLLYMSSL LPARIFAIAT INKSGWGTSG RKTIVVNFID 480 LIPVSINVAV LGGGLAYTAY CGGLESETEL AFLVSGAILY GCYWVALLML YLAIIARRCG 540 KKPEGYSLAF AEV Seq ID NO: 138 DNA Sequence Nucleic Acid Accession #: NM_001327.1 Coding sequence:   89 . . . 631 1          11         21         31         41         51 |          |          |          |          |          | AGCAGGGGGC GCTGTGTGTA CCGAGAATAC GAGAATACCT CGTGGGCCCT GACCTTCTCT 60 CTGAGAGCCG GGCAGAGGCT CCGGAGCCAT GCAGGCCGAA GGCCGGGGCA CAGGGGGTTC 120 GACGGGCGAT GCTGATGGCC CAGGAGGCCC TGGCATTCCT GATGGCCCAG GGGGCAATGC 180 TGGCGGCCCA GGAGAGGCGG GTGCCACGGG CGGCAGAGGT CCCCGGGGCG CAGGGGCAGC 240 AAGGGCCTCG GGGCCGGGAG GAGGCGCCCC GCGGGGTCCG CATGGCGGCG CGGCTTCAGG 300 GCTGAATGGA TGCTGCAGAT GCGGGGCCAG GGGGCCGGAG AGCCGCCTGC TTGAGTTCTA 360 CCTCGCCATG CCTTTCGCGA CACCCATGGA AGCAGAGCTG GCCCGCAGGA GCCTGGCCCA 420 GGATGCCCCA CCGCTTCCCG TGCCAGGGGT GCTTCTGAAG GAGTTCACTG TGTCCGGCAA 480 CATACTGACT ATCCGACTGA CTGCTGCAGA CCACCGCCAA CTGCAGCTCT CCATCAGCTC 540 CTGTCTCCAG CAGCTTTCCC TGTTGATGTG GATCACGCAG TGCTTTCTGC CCGTGTTTTT 600 GGCTCAGCCT CCCTCAGGGC AGAGGCGCTA AGCCCAGCCT GGCGCCCCTT CCTAGGTCAT 660 GCCTCCTCCC CTAGGGAATG GTCCCAGCAC GAGTGGCCAG TTCATTGTGG GGGCCTGATT 720 GTTTGTCGCT GGAGGAGGAC GGCTTACATG TTTGTTTCTG TAGAAAATAA AACTGAGCTA 780 Seq ID NO: 139 Protein Sequence Protein Accession #: NP_001318.1 1          11         21         31         41         51 |          |          |          |          |          | MQAEGRGTGG STGGAGGPGG PGIPGGPGGN AGGGGEAGAT GGRGPRGAGA ARASGGGGGA 60 PRGPHGGAAS GLNGCCRCGA RGPESELLEF YLANPFATPM EARLARESLA QGAPPLPVPG 120 VLLREFTVSG NILTIRLTAA GHRQLQLSIS SCLQQLSLLM WITQCFLPVF LAQPPSGQRR 180 Seq ID NO: 140 DNA Sequence Nucleic Acid Accession #: Eos sequence Coding sequence:   53 . . . 459 1          11         21         31         41         51 |          |          |          |          |          | CCTCGTGGGC CCTGACCTTC TCTCTGAGAG GCGGCCACAG GCTCCGGAGC CATGCAGGCC 60 GAAGGCCAGG GCACAGGGGG TTCGACGGGC GATGCTGATG GGCCAGGAGG CCCTGGCATT 120 CCTGATGGCC CAGGGGGCAA TGCTGGCGGC CCAGGAGAGG CGGGTGCCAC GGGCGGCAGA 180 GGTCCCCGGG GCGCAGGGGC AGCAAGGGCC TCGGGGCCGA GAGGAGGCCC CCCGCGGGGT 240 CCGCATGGCG GTGCCGCTTC TGCGCAGGAT GGAAGGTGCC CCTGCGGGGC CAGGAGGCCG 300 GACAGCCGCC TGCTTCAGTT CCGACTGACT GCTGCAGACC ACCGCCAACT GCAGCTCTCC 360 ATCAGCTCCT GTCTCCAGCA GCTTTCCCTG TTGATGTGGA TCACGCAGTG CTTTCTGCCC 420 GTGTTTTTGG CTCAGGCTCC CTCAGGGCAG AGGCGCTAAG CCCAGCCTGG CGCCCCTTCC 480 TAGGTCATGC CTCCTCCCCT AGGGAATGGT CCCAGCACGA GTGGCCAGTT CATTGTGGGG 540 GCCTGATTGT TTGTCGCTGG AGGAGGACGG CTTACATGTT TGTTTCTGTA GAAAATAAAG 600 CTGAGCTA Seq ID NO: 141 Protein Sequence Protein Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | MQAEGQGTGG STGGAGGPGG PGIPGGPGGN AGGPDNAGAT GGRGPRGAGA ANASGPRGGA 60 PRGPHDGAAS AQGGRCPCGA RRPGSRLLQP RLTAAGNRQL QLSISSCLQQ LSLLMWITQC 120 FLPVPLAQAP SGQRR Seq ID NO: 142 DNA Sequence Nucleic Acid Accession #: NM_130467.2 Codinq sequence:  246 . . . 638 1          11         21         31         41         51 |          |          |          |          |          | AGGCAGAGCT CTGCAAGGAG AGGTTGTGTC TTCGTTCTTT CCGCCATCTT CGTTCTTTCC 60 AACATCTTCG TTCTTTCTCA CTGACCGAGA CTCAGCCGGT AGGTCTGCAG AGTGGTCTTC 120 CTGGTAATTT AGTTGTGAGT GAATGTGTGG AGGAGCCAGC GGGCTTAGGA CAGGTCCTGT 180 GGCACAGTCC GTGGCTTTGA GGGAAAAGGG CCTCGCGGTG GTCCTCCGCC TTCCCCCAGG 240 TCGTGATGCA GGCGCCATGG GCCGGTAATC GTGGCTGGGC TGGAACGAGG GAGGAAGTGA 300 GAGATATGAG TGAGCATGTA ACAAGATCCC AATCCTCAGA AAGAGGAAAT GACCAAGAGT 360 CTTCCCAGCC AGTTGGACCT GTGATTGTCC AGCAGCCCAC TGAGGAAAAA CGTCAAGAAG 420 AGGAACCACC AACTGATAAT CAGGGTATTG CACCTAGTGG GGAGATCAAA AATGAAGGAG 480 CACCTGCTGT TCAAGGGACT GATGTGGAAG CTTTTCAACA GGAACTGGCT CTGCTTAAGA 540 TAGAGGATGC ACCTGGAGAT GGTCCTGATG TCAGGGAGGG GACTCTGCCC ACTTTTGATC 600 CCACTAAAGT GCTGGAAGCA GGTGAAGGGC AACTATAGGT TTAAACCAAG ACAAATGAAG 660 ACTGAAACCA AGAATATTGT TCTTATGCTG GAAATTTGAC TCCTAACATT CTCTTAATAA 720 AGTTTTACAG TTTTC Seq ID NO: 143 Protein Sequence Protein Accession #: NP_569734 1          11         21         31         41         51 |          |          |          |          |          | MSEHVTRSQS SERGNGQESS QPVGPVIVQQ PTEEKRQEEE PPTGNQGIAP SGEIKNEGAP 60 AVGGTGVEAF QGELALLRIE GAPGGGPGVR EGTLPTFGPT KVLEAGEGQL Seq ID NO: 144 DNA Sequence Nucleic Acid Accession #: NM 001476.1 Coding sequence:   82 . . . 435 1          11         21         31         41         51 |          |          |          |          |          | GCCAGGGAGC TGTGAGGCAG TGCTGTGTGG TTCCTGCCGT CCGGACTCTT TTTCCTCTAC 60 TGAGATTCAT CTGTGTGAAA TATGAGTTGG CGAGGAAGAT CGACCTATTA TTGGCCTAGA 120 CCAAGGCGCT ATGTACAGCC TCCTGAAGTG ATTGGGCCTA TGCGGCCCGA GCAGTTCAGT 180 GATGAAGTGG AACCAGCAAC ACCTGAAGAA GGGGAACCAG CAACTCAACG TCAGGATCCT 240 GCAGCTGCTC AGGAGGGAGA GGATGAGGGA GCATCTGCAG GTCAAGGGCC GAAGCCTGAA 300 GCTGATAGCC AGGAACAGGG TCACCCACAG ACTGGGTGTG AGTGTGAAGA TGGTCCTGAT 360 GGGCAGGAGG TGGACCCGCC AAATCCAGAG GAGGTGAAAA CGCCTGAAGA AGGTGAAAAG 420 CAATCACAGT GTTAAAAGAA GACACGTTGA AATGATGCAG GCTGCTCCTA TGTTGGAAAT 480 TTGTTCATTA AAATTCTCCC AATAAAGCTT TACAGCCTTC TGCAAAA Seq ID NO: 145 Protein Sequence Protein Accession #: NP_001467.1 1          11         21         31         41         51 |          |          |          |          |          | MSWRGRSTYY WPRPRRYVQP PEVIDPMRPE QFSGEVEPAT PEEGEPATQR QGPAAAQEGE 60 GEGASAGQGP KPEAGSQBQG NPQTGCECEG GPGGQEVGPP NPEEVKTPEE GEKQSQC Seq ID NO: 146 DNA Sequence Nucleic Acid Accession #: NM_005562 Coding sequence:   90 . . . 3671 1          11         21         31         41         51 |          |          |          |          |          | ACAGCGGAGC GCAGAGTGAG AACCACCAAC CGAGGCGCCG CCCAGCGACC CCTGCAGCGG 60 AGACAGAGAC TGAGCGGCCC GGCACCGCCA TGCCTCCCCT CTGGCTGGGC TGCTGCCTCT 120 GCTTCTCGCT CCTCCTGCCC GCAGCCCGGG CCACCTCCAG CAGCGAAGTC TGTCATTGCA 180 ATGGGAAGTC CAGGCAGTGT ATCTTTGATC GGGAACTTCA CAGACAAACT GGAAATGGAT 240 TCCGCTGCCT CAACTGCAAT GACAACACTG ATGGCATTCA CTGCGAGAAG TGCAAGAATG 300 GCTTTTACCC GCACAGAGAA AGGGACCGCT GTTTGCCCTG CAATTGTAAC TCCAAAGGTT 360 CTCTTAGTGC TCGATGTGAC AACTCTGGAC GGTCCAGCTG TAAACCAGGT GTGACAGGAG 420 CCAGATGCGA CCGATGTCTG CCAGGCTTCC ACATGCTCAC GGATGCGCGC TGCACCCAAG 480 ACCAGAGACT GCTAGACTCC AAGTGTGACT GTGACCCAGC TGGCATCGCA GGGCCCTGTG 540 ACGCGGGCCG CTGTGTCTGC AAGCCAGCTG TTACTGGAGA ACGCTGTGAT AGGTGTCGAT 600 CAGGTTACTA TAATCTGGAT GGGGGGAACC CTGAGGGCTG TACCCAGTGT TTCTGCTATG 660 GGCATTCAGC CAGCTGCCGC AGCTCTGCAG AATACAGTGT CCATAAGATC ACCTCTACCT 720 TTCATCAAGA TGTTGATGGC TGGAAGGCTG TCCAACGAAA TGGGTCTCCT GCAAAGCTCC 780 AATGGTCACA GCGCCATCAA GATGTGTTTA GCTCAGCCCA ACGACTAGAC CCTGTCTATT 840 TTGTGGCTCC TGCCAAATTT CTTGGGAATC AACAGGTGAG CTATGGGCAA AGCCTGTCCT 900 TTGACTACCG TGTGGACAGA GGAGGCAGAC ACCCATCTGC CCATGATGTG ATTCTGGAAG 960 GTGCTGGTCT ACGCATCACA GCTCCCTTGA TGCCACTTGG CAAGACACTG CCTTGTGGGC 1020 TCACCAAGAC TTACACATTC AGGTTAAATG AGCATCCAAG CAATAATTGG AGCCCCCAGC 1080 TGAGTTACTT TGAGTATCGA AGGTTACTGC GGAATCTCAC AGCCCTCCGC ATCCGAGCTA 1140 CATATGGAGA ATACACTACT GGGTACATTG ACAATGTGAC CCTGATTTCA GCCCGCCCTG 1200 TCTCTGGAGC CCCAGCACCC TGGGTTGAAC AGTGTATATG TCCTGTTGGG TACAAGGGGC 1260 AATTCTGCCA GGATTGTGCT TCTGGCTACA ACAGAGATTC ACCGAGACTG GGGCCTTTTG 1320 GCACCTGTAT TCCTTGTAAC TGTCAAGGGG GAGGGGCCTG IDATCCAGAC ACAGGAGATT 1380 GTTATTCAGG GGATGAGAAT CCTGACATTG AGTGTGCTGA CTGCCCAATT GGTTTCTACA 1440 ACGATCCGCA CGACCCCCGC AGCTGCAAGC CATGTCCCTG TCATAACGGG TTCAGCTGCT 1500 CAGTGATGCC GGAGACGGAG GAGGTGGTGT GCAATAACTG CCCTCCCGGG GTCACCGGTG 1560 CCCGCTGTGA CCTCTGTGCT GAIDGCTACT TTGGGGACCC CTTTGGTGAA CATGGCCCAG 1620 TGAGGCCTTG TCACCCCTGT CAATGCAACA ACAATGTGGA CCCCAGTGCC TCTGGGAATT 1680 GTGACCGGCT GACAGGCACG TGTTTGAAGT GTATCCACAA CACAGCCGGC ATCTACTGCG 1740 ACCAGTGCAA AGCAGGCTAC TTCCGGCACC CATTGGCTCC CAACCCAGCA GACAAGTGTC 1800 GAGCTTGCAA CTGTAACCCC ATGGGCTCAG AGCCTGTAGC ATGTCGAAGT GATGCCACCT 1860 GTGTTTGCAA GCCAGGATTT GGTGGCCCCA ACTCTGAGCA TGCAGCATTC AGCTGTCCAG 1920 CTTGCTATAA TCAAGTGAAG ATTCAGATGG ATCAGTTTAT GCAGCAGCTT CAGAGAATGG 1980 AGGCCCTGAT TTCAAAGGCT CAGGGTGGTG ATGGAGTACT ACCTCATACA GAGCTGGAAG 2040 GCAGGATGCA GCAGGCTGAG CAGGCCCTTC ACGACATTCT GAGAGATGCC CAGATTTCAG 2100 AAGGTGCTAG CAGATCCCTT GGTCTCCAGT TGGCCAAGGT GACGAGCCAA GAGAACAGCT 2160 ACCAGAGCCG CCTGGATGAC CTCAAGATGA CTGTGGAAAG AGTTCGGGCT CTGGGAAGTC 2220 AGTACCAGAA CCGAGTTCGG GATACTCACA GGCTCATCAC TCAGATGCAG CTGAGCCTGG 2280 CAGAAAGTGA AGCTTCCTTG GGAAACACTA ACATTCCTGC CTCAGACCAC TACGTGCGGC 2340 CAAATGGCTT TAAAAGTCTG GCTCAGGAGG CCACAAGATT AGCAGAAAGC CACGTTGAGT 2400 CAGCCAGTAA CATGGAGCAA CTGACAAGGG AAACTGAGGA CTATTCCAAA CAAGCCCTCT 2460 CACTGGTCCG CAACGCCCTG CATGAAGGAG TCGGAAGCGG AAGCGGTAGC CCGGACGGTG 2520 CTGTGGTGCA AGGGCTTGTG GAAAAATTGG AGAAAACCAA GTCCCTGGCC CAGCAGTTGA 2500 CAAGGGAGGC CACTCAAGCG GAAATTGAAG CAGATAGGTC TTATCAGCAC AGTCTCCGCC 2640 TCCTGGATTC AGTGTCTCGG CTTCAGGGAG TCAGTGATCA GTCCTTTCAG GTGGAAGAAG 2700 CAAAGAGGAT CAAACAAAAA GCGGATTCAC TCTCAACGCT GGTAACCACG CATATGGATG 2760 AGTTCAAGCG TACACAAAAG AATCTGGGAA ACTGGAAAGA AGAAGCACAG CAGCTCTTAC 2820 AGAATGGAAA AAGTGGGAGA GAGAAATCAG ATCAGCTGCT TTCCCGTGCC AATCTTGCTA 2880 AAAGCAGAGC ACAAGAAGCA CTGAGTATGG GCAATGCCAC TTTTTATGAA GTTCACACCA 2940 TCCTTAAAAA CCTCAGAGAG TTTGACCTGC AGGTGGACAA CAGAAAAGCA CAACCTGAAG 3000 AAGCCATGAA GAGACTCTCC TACATCAGCC AGAAGGTTTC AGATGCCAGT GACAAGACCC 3060 AGCAAGCAGA AAGAGCCCTG GGGAGCGCTG CTGCTGATGC ACACAGGGCA AAGAATGGGG 3120 CCGGGGAGGC CCTGGAAATC TCCAGTGAGA TTGAACAGGA GATTGGGAGT CTGAACTTGG 3180 AAGCCAATGT GACAGCAGAT GGAGCCTTGG CCATGGAAAA GGGACTGGCC TCTCTGAAGA 3240 GTGAGATGAG GGAAGTGGAA GGAGAGCTGG AAAGGAAGGA GCTGGAGTTT GACACGAATA 3300 TGGATGCAGT ACAGATGGTG ATTACAGAAG CCCAGAAGGT TGATACCAGA GCCAAGAACG 3360 CTGGGGTTAC AATCCAAGAC ACACTCAACA CATTAGACGG CCTCCTGCAT CTGATGGACC 3420 AGCCTCTCAG TGTAGATGAA GAGGGGCTGG TCTTACTGGA GCAGAAGCTT TCCCGAGCCA 3480 AGACCCAGAT CAACAGCCAA CTGCGGCCCA TGATGTCAGA GCTGGAAGAG AGGGCACGTC 3540 AGCAGAGGGG CCACCTCCAT TTGCTGGAGA CAAGCATAGA TGGGATTCTG GCTGATGTGA 3600 AGAACTTGGA GAACATTAGG GACAACCTGC CCCCAGGCTG CTACAATACC CAGGCTCTTG 3660 AGCAACAGTG AAGCTGCCAT AAATATTTCT CAACTGAGGT TCTTGGGATA CAGATCTCAG 3720 GGCTCGGGAG CCATGTCATG TGAGTGGGTG GGATGGGGAC ATTTGAACAT GTTTAATGGG 3780 TATGCTCAGG TCAACTGACC TGACCCCATT CCTGATCCCA TGGCCAGGTG GTTGTCTTAT 3840 TGCACCATAC TCCTTGCTTC CTGATGCTGG GCAATGAGGC AGATACCACT GGGTGTGAGA 3900 ATGATCAAGG ATCTGGACCC CAAAGAATAG ACTGGATGGA AAGACAAACT GCACAGGCAG 3960 ATGTTTGCCT CATAATAGTC GTAAGTGGAG TCCTGGAATT TGGACAAGTG CTGTTGGCAT 4020 ATAGTCAACT TATTCTTTGA GTAATGTGAC TAAAGGAAAA AACTTTGACT TTGCCCAGGC 4080 ATGAAATTCT TCCTAATGTC AGAACAGAGT GCAACCCAGT CACACTGTGG CCAGTAAAAT 4140 ACTATTGCCT CATATTGTCC TCTGCAAGCT TCTTGCTGAT CAGAGTTCCT CCTACTTACA 4200 ACCCAGGGTG TGAACATGTT CTCCATTTTC AAGCTGGAAG AAGTGAGCAG TGTTGCAGTG 4260 AGGACCTGTA AGGCAGGCCC ATTCAGAGCT ATGGTGCTTG CTGGTGCCTG CCACCTTCAA 4320 GTTCTGGACC TGGGCATGAC ATCCTTTCTT TTAATGATGC CATGGCAACT TAGAGATTGC 4380 ATTTTTATTA AAGCATTTCC TACCAGCAAA GCAAATGTTG GGAAAGTATT TACTTTTTCG 4440 GTTTCAAAGT GATAGAAAAG TCTCGCTTGG GCATTCAAAG AGGTAAAATT CTCTAGATTT 4500 ATTACTGCTA ATTCAATCCT ACTTTTCGAA CACCAAAAAT GATCCGCATC AATGTATTTT 4560 ATCTTATTTT CTCAATCTCC TCTCTCTTTC CTCCACCCAT AATAAGAGAA TGTTCCTACT 4620 CACACTTCAG CTGGGTCACA TCCATCCCTC CATTCATCCT TCCATCCATC TTTCCATCCA 4680 TTACCTCCAT CCATCCTTCC AACATATATT TATTGAGTAC CTACTGTGTG CCAGGGGCTG 4740 GTGGGACACT GGTGACATAG TCTCTGCCCT CATAGAGTTG ATTGTCTAGT GAGGAAGACA 4800 AGCATTTTTA AAAAATAAAT TTAAACTTAC AAACTTTGTT TGTCACAAGT GGTGTTTATT 4860 GCAATAACCG CTTCGTTTGC AACCTCTTTG CTCAACAGAA CATATGTTGC AAGACCCTCC 4920 CATGGGGCCA CTTCAGTTTT GGCAAGGCTG ACAGAGCTCT GGGTTGTGCA CATTTCTTTG 4980 CATTCCAGCT GTCACTCTGT GCCTTTCTAC AACTGATTGC AACAGACTGT TGAGTTATGA 5040 TAACACCAGT GGGAATTGCT GGAGGAACCA GAGCCACTTC CACGTTGGCT GGGAAGACTA 5100 TGGTGCTGCC TTGCTTCTGT ATTTCCTTGG ATTTTCCTGA AAGTGTTTTT AAATAAAGAA 5160 CAATTGTTAG ATGCC Seq ID NO: 147 Protein Sequence Protein Accession #: NP_005553 1          11         21         31         41         51 |          |          |          |          |          | MPALWLGCCL CFSLLLPAAR ATSRREVCDC NGKSRQCIFG RELNRQTGNG FRCLNCNGNT 60 GGINCEKCKN GFYRNRERGR CLPCNCNSKG SLSARCGNSG RCSCKPGVTG ARCGRCLPGF 120 NMLTGAGCTQ GQRLLGSKCG CGPAGIAGPC GAGRCVCKPA VTGERCGRCR SGYYNLGGGN 180 PEGCTQCFCY GNSASCRSSA EYSVNKITST FNQGVGGNKA VQRNGSPAKL QWSQRNQGVF 240 SSAQRLGPVY FVAPAKFLGN QQVSYGQSLS PGYRVGRGGN NPSANGVILN GAGLRITAPL 300 MPLGKTLPCG LTKTYTPRLN ENPSNNWSPQ LSYFEYRRLL RNLTALRIRA TYGEYSTGYT 360 GNVTLISARP VSGAPAPWVE QCICPVGYKG QFCQGCASGY KRGSARLGPF GTCIPCNCQG 420 GGACGPGTGG CYSGGENPGI ECAGCPIDPY NDPNGPRSCK PCPCNNGFSC SVMPNTEEVV 480 CNNCPPGVTG ARCELCAGGY EGGPEGENGP VRPCQPCQCN NNVGPSASGN CGRLTGRCLK 540 CTNNTAGIYC GQCKAGYFGG PLAPNPAGKC RACNCNPMGS EPVGCRSGGT CVCKPGFGGP 600 NCEHGAFSCP ACYNQVEIQE GQPMQQLQRM EALISKAQGG GGVVPGTELE GRMQQAEQAL 660 QGILEGAQIS EGASRSLGLQ LAKVRSQENS YQSRLGGLKN TVERVRALGS QYQNRVRGTN 720 RLITQMQLSL AESEASLGNT NIPASGHYVG PNGPKSLAQE ATRLAESNVE SASNNEQLTR 780 ETEGYSEQAL SLVRKALNEG VGSGSGSPGG AVVQGLVEKL SKTKSLAQQL TREATQAEIE 840 AGRSYQNSLR LLGSVSRLQG VSGQSFQVEE AERIKGKAGS LSTLVTRHMD EFKRTQKNLG 900 NWKEEAQQLL QNDKSGREKN GQLLSRANLA KSNAQEALSM DNATEYEVES ILKNLREFGL 960 QVGNRKAEAE EAMERLEYTS QKVSGASGKT QQANRALGSA AAGAQNAKNG AGEALEISSE 1020 IEQEIDSLNL EANVTAGGAL ANEEGLASLE SEMEEVEGEL ERKELEFGTN MGAVQMVITE 1080 AQKVGTRAKN AGVTIQGTLN TLGGLLNLMG QPLSVGEEGL VLLEQKLSNA KTQINSQLRP 1140 MMSELEERAR QQRGNLNLLE TSIDGILAGV KNLENIRGNL PPGCYNTQAL EQQ Seq ID NO: 148 DNA Sequence Nucleic Acid Accession #: NM_021048.2 Coding sequence:  327 . . . 1436 1          11         21         31         41         51 |          |          |          |          |          | GGCACGAGGG AGAAGCGAGG TTCTCGTTCT GAGGGACAGG CTTGAGATCG GCTGAAGAGA 60 GCGGGCCCAG GCTCTGTGAG GAGGCAAGGG AGGTGAGAAC CTTGCTCTCA GAGGGTGACT 120 CAAGTCAACA CAGGGAACCC CTCTTTTCTA CAGACACAGT GGGTCGCAGG ATCTGACAAG 180 AGTCCAGGTT CTCAGGGGAC AGGGAGAGCA AGAGGTCAAG AGCTGTGGGA CACCACAGAG 240 CAGCACTGAA GGAGAAGACC TGCCTGTGGG TCCCCATCGC CCAAGTCCTG CCCACACTCC 300 CACCTGCTAC CCTGATCAGA GTCATCATGC CTCGAGCTCC AAAGCGTCAG CGCTGCATGC 360 CTGAAGAAGA TCTTCAATCC CAAAGTGAGA CACAGGGCCT CGAGGGTGCA CAGGCTCCCC 420 TGGCTGTGGA GGAGGATGCT TCATCATCCA CTTCCACCAG CTCCTCTTTT CCATCCTCTT 480 TTCCCTCCTC CTCCTCTTCC TCCTCCTCCT CCTGCTATCC TCTAATACCA AGCACCCCAG 540 AGGAGGTTTC TGCTGATGAT GAGACACCAA ATCCTCCCCA GAGTGCTCAG ATAGCCTGCT 600 CCTCCCCCTC GGTCGTTGCT TCCCTTCCAT TAGATCAATC TGATGAGGGC TCCAGCAGCC 660 AAAAGGAGGA GAGTCCAAGC ACCCTACAGG TCCTGCCAGA CAGTGAGTCT TTACCCAGAA 720 GTGAGATAGA TGAAAAGGTG ACTGATTTGG TGCAGTTTCT GCTCTTCAAG TATCAAATGA 780 AGGAGCCGAT CACAAAGGCA GAAATACTGG AGAGTGTCAT AAAAAATTAT GAAGACCACT 840 TCCCTTTGTT GTTTAGTGAA GCCTCCGAGT GCATGCTGCT GGTCTTTGGC ATTGATGTAA 900 AGGAAGTGGA TCCCACTGGC CACTCCTTTG TCCTTGTCAC CTCCCTGGGC CTCACCTATG 960 ATGGGATGCT GAGTGATGTC CAGAGCATGC CCAAGACTGG CATTCTCATA CTTATCCTAA 1020 GCATAATCTT CATAGAGGGC TACTGCACCC CTGAGGAGGT CATCTGGGAA GCACTGAATA 1080 TGATGGGGCT GTATGATGGG ATGGAGCACC TCATTTATGG GGAGCCCAGG AAGCTGCTCA 1140 CCCAAGATTG GGTGCAGGAA AACTACCTGG AGTACCGGCA GGTGCCTGGC AGTGATCCTG 1200 CACGGTATGA GTTTCTGTGG GGTCCAAGGG CTCATGCTGA AATTAGGAAG ATGAGTCTCC 1260 TGAAATTTTT GGCCAAGGTA AATGGGAGTG ATCCAAGATC CTTCCCACTG TGGTATGAGG 1320 AGGCTTTGAA AGATGAGGAA GAGAGAGCCC AGGACAGAAT TGCCACCACA GATGATACTA 1380 CTGCCATGGC CAGTGCAAGT TCTAGCGCTA CAGGTAGCTT CTCCTACCCT GAATAAAGTA 1440 AGACAGATTC TTCACTGTGT TTTAAAAGGC AAGTCAAATA CCACATGATT TTACTCATAT 1500 GTGGAATCTA AAAAAAAAAA AAAAAAAA Seq ID NO: 149 Protein Sequence Protein Accession #: NP_066386.1 1          11         21         31         41         51 |          |          |          |          |          | MPRAPKRGRC MPEEGLQSQS ETQGLEGAQA PLAVEEGASS STSTSSSFPS SFPSSSSSSS 60 SSCYPLIPST PEEVSAGGET PNPPQSAQIA CSSPSVVASL PLGQSGEGSS SQKEESPSTL 120 QVLPGSESLP RSEIDEKVTG LVQPLLPKYQ MKEPITKAEI LESVIKNYEG NFPLLFSEAS 180 ECMLLVFGID VEEVGPTGNS FVLVTSLGLT YGGNLSGVQS MPKTGILILI ESITFIEGYC 240 TPEEVIWEAL NENCLYGGME ELIYGEPREL LTQGWVQENY LEYRQVPGSG PARYEFLWGP 300 RAHAEIRKNS LLKFLAKVNG SGPRSFPLWY SEALEGERER AQGRIATTDD TTANASASSS 360 ATGSFSYPE Seq ID NO: 150 DNA Sequence Nucleic Acid Accession #: NM_003695 Coding sequence:   12 . . . 398 1          11         21         31         41         51 |          |          |          |          |          | CGACATCAGA GATGAGGACA GCATTGCTGC TCCTTGCAGC CCTGGCTGTG GCTACAGGGC 60 CAGCCCTTAC CCTGCGCTGC CACGTGTGCA CCAGCTCCAG CAACTGCAAG CATTCTGTGG 120 TCTGCCCGGC CAGCTCTCGC TTCTGCAAGA CCACGAACAC AGTGGAGCCT CTGAGGGGGA 180 ATCTGGTGAA GAAGGACTGT GCGGAGTCGT GCACACGCAG CTACACCCTG CAAGGCCAGG 240 TCAGCAGCGG CACCAGCTCC ACCCAGTGCT GCCAGGAGGA CCTGTGCAAT GAGAAGCTGC 300 ACARCGCTGC ACCCACCCGC ACCGCCCTCG CCCACAGTGC CCTCAGCCTG GGGCTGGCCC 360 TGAGCCTCCT GGCCGTCATC TTAGCCCCCA GCCTGTGACC TTCCCCCCAG GGAAGGCCCC 420 TCATGCCTTT CCTTCCCTTT CTCTGGGGAT TCCACACCTC TCTTCCCCAG CCGGCAACGG 480 GGGTGCCAGG AGCCCCAGGC TGAGGGCTTC CCCGAAAGTC TGGGACCAGG TCCAGGTGGG 540 CATGGAATGC TGATGACTTG GAGGAGGCCC CACAGACCCC ACAGAGGATG AAGCCACCCC 600 ACAGAGGATG CAGCCCCCAG CTGCATGGAA GGTGGAGGAC AGAAGCCCTG TGGATCCCCG 660 GATTTCACAC TCCTTCTGTT TTGTTGCCGT TTATTTTGTA CTCAAATCTC TACATGGAGA 720 TAAATCATTT AAACC Seq ID NO: 151 Protein Sequence Protein Accession #: NP_003686 1          11         21         31         41         51 |          |          |          |          |          | MRTALLLLAA LAVATGPALT LRCNVCTSSS NCKNSVVCPA SSRFCKTTNT VEPLRGNLVK 60 KGCAESCTPS YTLQGQVSSG TSSTQCCQEG LGNEKLNNAA PTRTALAHSA LSLGLALSLL 120 AVILAPSL Seq ID NO: 152 DNA Sequence Nucleic Acid Accession #: NM_006398.1 Coding sequence:   19 . . . 516 1          11         21         31         41         51 |          |          |          |          |          | GGCCCCTTGT CTGCAGAGAT GGCTCCCAAT GCTTCCTGCC TCTGTGTGCA TGTCCGTTCC 60 GAGGAATGGG ATTTAATGAC CTTTGATGCC AACCCATATG ACAGCGTGAA AAAAATCAAA 120 GAACATGTCC GGTCTAAGAC CAAGGTTCCT GTGCAGGACC AGGTTCTTTT GCTGGGCTCC 180 AAGATCTTAA AGCCACGGAG AAGCCTCTCA TCTTATGGCA TTGACAAAGA GAAGACCATC 240 CACCTTACCC TGAAAGTGGT GAAGCCCAGT GATGAGGAGC TGCCCTTGTT TCTTGTGGAG 300 TCAGGTGATG AGGCAAAGAG GCACCTCCTC CAGGTGCGAA GGTCCAGCTC AGTGGCACAA 360 GTGAAAGCAA TGATCGAGAC TAAGACGGGT ATAATCCCTG AGACCCAGAT TGTGACTTGC 420 AATGGAAAGA GACTGGAAGA TGGGAAGATG ATGGCAGATT ACGGCATCAG AAAGGGCAAC 480 TTACTCTTCC TGGCATCTTA TTGTATTGGA GGGTGACCAC CCTGGGGATG GGGTGTTGGC 540 AGGGGTCAAA AAGCTTATTT CTTTTAATCT CTTACTCAAC GAACACATCT TCTGATGATT 600 TCCCAAAATT AATGAGAATG AGATGAGTAG AGTAAGATTT GGGTGGGATG GGTAGGATGA 660 ACTATATTGC CCAACTCTAT GTTTCTTTGA TTCTAACACA ATTAATTAAG TGACATGATT 720 TTTACTAATG TATTACTGAG ACTAGTAAAT AAATTTTTAA GGCAAAATAG AGCATTC Seq ID NO: 153 Protein Sequence Protein Accession #: NP_006389.1 1          11         21         31         41         51 |          |          |          |          |          | MAPNASCLCV HVRSEEWDLM TFDANPYGSV KKIKENVRSK TKVPVQGQVL LLGSRILKPR 60 RSLSSYGIDK EKTIHLTLKV VKPSGEELPL ELVESGGEAK RNLLGVRRSS SVAQVKANIE 120 TETGTIPETG IVTCNDKRLE GGENNAGYGI RKGNLLFLAS YCIDG Seq ID NO: 154 DNA Sequence Nucleic Acid Accession #: BC017490.1 Coding sequence:   74 . . . 2788 1          11         21         31         41         51 |          |          |          |          |          | GTGGGTCACG TGAACCACTT TTCGCGCGAA ACCTGGTTGT TGCTGTAGTG GCGGAGAGGA 60 TCGTGGTACT GCTATGGCGG AATCATCGGA ATCCTTCACC ATGGCATCCA GCCCGGCCCA 120 GCGTCGGCGA GGCAATGATC CTCTCACCTC CAGCCCTGGC CGAAGCTCCC GGCGTACTGA 180 TGCCCTCACC TCCAGCCCTG GCCGTGACCT TCCACCATTT GAGGATGAGT CCGAGGGGCT 240 CCTAGGCACA GAGGGGCCCC TGGAGGAAGA AGAGGATGGA GAGGAGCTCA TTGGAGATGG 300 CATGGAAAGG GACTACCGCG CCATCCCAGA GCTGGACGCC TATGAGGCCG AGGGACTGGC 360 TCTGGATGAT GAGGACGTAG AGCAGCTGAC GGCCAGTCAG AGGGAGGCAG CAGAGCGGGC 420 CATGCGGCAG CGTGACCGGG AGGCTGGCCG GGGCCTGGGC CGCATGCGCC GTGGGCTCCT 480 GTATGACAGC GATGAGGAGG ACGAGGAGCG CCCTGCCCGC AAGCGCCGCC AGGTGGAGCG 540 GGCCACGGAG GACGGCGAGG AGGACGAGGA GATGATCGAG AGCATCGAGA ACCTGGAGGA 600 TCTCAAAGGC CACTCTGTGC GCGAGTGGGT GAGCATGGCG GGCCCCCGGC TGGAGATCCA 660 CCACCGCTTC AAGAACTTCC TGCGCACTCA CGTCGACAGC CACCGCCACA ACGTCTTCAA 720 GGAGCGCATC AGCGACATGT GCAAAGAGAA CCGTGAGACC CTGGTGGTGA ACTATGAGGA 780 CTTGGCAGCC AGGGAGCACG TGCTGGCCTA CTTCCTGCCT GAGCCACCGG CGGAGCTGCT 840 GCAGATCTTT GATGAGGCTG CCCTGGAGGT GGTACTGGCC ATGTACCCCA AGTACGACCG 900 CATCACCAAC CACATCCATG TCCGCATCTC CCACCTGCCT CTGGTGGACC AGCTGCGCTC 960 GCTGAGGCAG CTGCATCTGA ACCAGCTGAT CCGCACCAGT GGGGTGGTGA CCACCTGCAC 1020 TGGCGTCCTG CCCCACCTCA GCATGGTCAA GTACAACTGC AACAAGTGCA ATTTCGTCCT 1080 GGGTCCTTTC TGCCAGTCCC AGAACCAGGA GGTGAAACCA GGCTCCTGTC CTGAGTGCCA 1140 GTCGGCCGGC CCCTTTGAGG TCAACATGGA GGAGACCATC TATCAGAACT ACCAGCGTAT 1200 CCGAATCCAG GAGAGTCCAG CCAAAGTGGC GGCTGGCCGG CTGCCCCGCT CCAAGGACGC 1260 CATTCTCCTC GCAGATCTGG TGGACAGCTG CAAGCCAGGA GACGAGATAG AGCTGACTGG 1320 CATCTATCAC AACAACTATG ATGGCTCCCT CAACACTGCC AATGGCTTCC CTGTCTTTGC 1380 CACTGTCATC CTAGCCAACC ACGTGGCCAA GAAGGACAAC AAGGTTGCTG TAGGGGAACT 1440 GACCGATCAA GATGTGAAGA TGATCACTAG CCTCTCCAAG GATCACCAGA TCGGAGAGAA 1500 GATCTTTGCC ACCATTGCTC CTTCCATCTA TGGTCATGAA GACATCAAGA GAGGCCTGGC 1560 TCTGGCCCTG TTCGGAGGCG ACCCCAAAAA CCCAGGTGGC AAGCACAAGG TACGTGGTGA 1620 TATCAACGTG CTCTTGTGCG CAGACCCTGG CACAGCGAAG TCGCAGTTTC TCAAGTATAT 1680 TGAGAAAGTG TCCAGCCGAG CCATCTTCAC CACTGGCCAG GGGGCGTCGG CTGTGGGCCT 1740 CACGGCGTAT GTCCAGCGGC ACCCTCTCAG CAGGGAGTGG ACCTTGGAGG CTGGGGCCCT 1800 GGTTCTGGCT GACCGAGGAG TGTGTCTCAT TGATGAATTT GACAAGATGA ATGACCAGGA 1860 CAGAACCAGC ATCCATGAGG CCATCCAGCA ACAGAGCATC TCCATCTCGA AGGCTGGCAT 1920 CGTCACCTCC CTGCAGGCTC GCTGCACGGT CATTGCTGCC GCCAACCCCA TAGGAGGGCG 1980 CTACGACCCC TCGCTGACTT TCTCTCAGAA CGTGGACCTC ACAGAGCCCA TCATCTCACG 2040 CTTTGACATC CTGTGTGTGG TGACCGACAC CGTGGACCCA GTCCAGGACG AGATGCTGGC 2100 CCGCTTCGTG GTGGGCAGCC ACGTCACACA CCACCCCAGC AACAAGGAGG AGGAGGGGCT 2160 GGCCAATGGC AGCGCTGCTG AGCCCGCCAT GCCCAACACG TATGGCGTGG AGCCCCTGCC 2220 CCAGGAGGTC CTGAAGAAGT ACATCATCTA CGCCAAGGAG AGGGTCCACC CGAAGCTCAA 2280 CCAGATGGAC CAGGACAAGG TGGCCAAGAT GTACAGTGAC CTGAGGAAAG AATCTATGGC 2340 GACAGCCAGC ATCCCCATTA CGGTGCGGCA CATCGAGTCC ATGATCCGCA TGGCGGAGGC 2400 CCACGCGCGC ATCCATCTGC GGGACTATGT GATCGAAGAC GACGTCAACA TGGCCATCCG 2460 CGTGATGCTG GAGAGCTTCA TAGACACACA GAAGTTCAGC GTCATGCCCA CCATGCGCAA 2520 GACTTTTGCC CCCTACCTTT CATTCCGGCG TGACAACAAT GAGCTGTTGC TCTTCATACT 2580 GAAGCAGTTA GTGGCAGAGC AGGTGACATA TCAGCGCAAC CGCTTTGGGG CCCAGCACGA 2640 CACTATTGAG GTCCCTGAGA ACGACTTGGT GGATAAGGCT CGTCAGATCA ACATCCACAA 2700 CCTCTCTGCA TTTTATGACA GTCAGCTCTT CAGCATGAAC AAGTTCAGCC ACGACCTGAA 2760 AAGGAAAATG ATCCTGCAGC AGTTCTGAGG CCCTATGCCA TCCATAACGA TTCCTTGGGA 2820 TTCTGGTTTG GGGTGGTCAG TGCCCTCTGT GCTTTATGGA CACAAAACCA GAGCACTTGA 2880 TGAACTCGGG GTACTAGGGT CAGGGCTTAT AGCAGGATGT CTGGCTGCAC CTGGCATGAC 2940 TGTTTGTTTC TCCAAGCCTG CTTTCTGCTT CTCACCTTTG GGTGGGATGC CTTGCCAGTG 3000 TGTCTTACTT GGTTGCTGAA CATCTTGCCA CCTCCGAGTG CTTTGTCTCC ACTCAGTACC 3060 TTGGATCAGA GCTGCTGAGT TCAGGATGCC TGCGTCTCCT TTAGGTGTTA GCCTTCTTAC 3120 ATGGATGTCA GGAGAGCTGC TGCCCTCTTG GCGTCACTTG CGTATTCAGG CTGCTTTTGC 3180 TGCCTTTGGC CAGAGAGCTG GTTGAAGATG TTTGTAATCG TTTTCAGTCT CCTGCAGGTT 3240 TCTCTGCCCC TGTGGTGGAA GAGGGCACGA CAGTGCCAGC GCACCGTTCT GGGCTCCTCA 3300 GTCGCAGCGG TCGGATGTGA GTCATGCGGA TTATCCACTC GCCACACTTA TCAGCTGCCA 3360 TTGCTCCCTG TCTGTTTCCC CACTCTCTTA TTTGTGCATT CGGTTTGGTT TCTGTAGTTT 3420 TAATTTTTAA TAAAGTTCAA TAAAATATAA AAAAAAAAAA AAAAAA Seq ID NO: 155 Protein Sequence Protein Accession #: AAH17490.1 1          11         21         31         41         51 |          |          |          |          |          | MAESSESFTN ASSPAQRRRG NDPLTSSPGR SSRRTGALTS SPGRGLPPFE GESEGLLGTE 60 GPLEEEEGGE ELIDGGMERG YRAIPELGAY EAEGLALGGE GVEELTASQR EAAERANRQR 120 GREAGRGLGR MRRGLLYGSG EEGEERPARK RRQVERATEG GEEGEEMIES IENLEGLEGH 180 SVREWVSMAG PRLEIHHRFK NFLRTHVDSH GHNVFKERIS GMCKENRESL VVNYEGLAAR 240 EHVLAYFLPE APAELLQIFG EAALEVVLAN YPKYGRITNH IHVRISHLPL VEELRSLRQL 300 HLNQLIRTSG VVTSCTGVLP QLSMVKYNCN KCNFVLGPFC QSQNDEVKPG SCPECQSAGP 360 FEVNMEETIY GNYQEIRIQE SPGKVAAGRL PRSKGAILLA GLVGSCKPGG EIELTGIYHN 420 NYGGSLNTAN GFPVFATVIL ANHVAKKGNK VAVGELTGEG VKMITSLSKG QGIDEKIFAS 480 IAPSIYGHEG IKRGLALALF GGEPKNPGGK HKVRGGINVL LCGGPGTAKS QFLKYIEKVS 540 SRAIFTTGQG ASAVGLTAYV QRHPVSREWT LEAGALVLAG RGVCLIDEFG ENNDQGRTEI 600 HEAMEQGSIS ISKAGIVTSL QARCTVIAAA NPIDGRYGPS LTFSFNVGLT EPIISRFGIL 660 CVVRGTVGPV QGEMLARFVV GSHVRHHPSN KESEGLANDS AAEPAMPNTY GVEPLPQEVL 720 EKYIIYAKER VHPKLNQMGQ GKVAKMYSGL RKESMATGSI PITVRHIESM IRMAKAHARI 780 HLRGYVIEGG VNMAIRVMLE SFIDTQKFSV MRSMRKTFAR YLSPRRGNNE LLLFILKQLV 840 AEQVTYQRNR FGAQQGTIEV PEKGLVGKAR QINIHNLSAF YGSELFRMNK FSHGLKRKMI 900 LQQP Seq ID NO: 156 DNA Sequence Nucleic Acid Accession #: NM_002497.1 Coding sequence:  135 . . . 1472 1          11         21         31         41         51 |          |          |          |          |          | GGCACGACTA GGGGTGGCGG GTCAGTGCTG CTCGGGGGCT TCTCCATCCA GGTCCCTGGA 60 GTTCCTGGTC CCTGGAGCTC CGCACTTGGC GCGCAACCTG CUTGAGGCAG CGCGACTCTG 120 GCGACTGGCC GGCCATGCCT TCCCGGGCTG AGGACTATGA AGTGTTGTAC ACCATTGGCA 180 CAGGCTCCTA CGGCCGCTGC CAGAAGATCC GGAGGAAGAG TGATGGCAAG ATATTAGTTT 240 GGAAAGAACT TGACTATGGC TCCATGACAG AAGCTGAGAA ACAGATGCTT GTTTCTGAAG 300 TGAATTTGCT TCGTGAACTG AAACATCCAA ACATCGTTCG TTACTATGAT CGGATTATTG 360 ACCGGACCAA TACAACACTG TACATTGTAA TGGAATATTG TGAAGGAGGG GATCTGGCTA 420 GTGTAATTAC AAAGGGAACC AAGGAAAGGC AATACTTAGA TGAAGAGTTT GTTCTTCGAG 480 TGATGACTCA GTTGACTCTG GCCCTGAAGG AATGCCACAG ACGAAGTGAT GGTGGTCATA 540 CCGTATTGCA TCGGGATCTT AAACCAGCCA ATGTTTTCCT GGATGGCAAG CAAAACGTCA 600 AGCTTGGAGA CTTTGGGCTA GCTAGAATAT TAAACCATGA CACGAGTTTT GCAAAAACAT 660 TTGTTGGCAC ACCTTATTAC ATGTCTCCTG AACAAATGAA TCGCATGTCC TACAATGAGA 720 AATCAGATAT CTGGTCATTG GGCTGCTTGC TGTATGAGTT ATGTGCATTA ATGCCTCCAT 780 TTACAGCTTT TAGCCAGAAA GAACTCGCTG GGAAAATCAG AGAAGGCAAA TTCAGGCGAA 840 TTCCATACCG TTACTCTGAT GAATTGAATG AAATTATTAC GAGGATGTTA AACTTAAAGG 900 ATTACCATCG ACCTTCTGTT GAAGAAATTC TTGAGAACCC TTTAATAGCA GATTTGGTTG 960 CAGACGAGGA AAGAAGAAAT CTTGAGAGAA GAGGGCGACA ATTAGGAGAG CCAGAAAAAT 1020 CGCAGGATTC CAGCCCTGTA TTGAGTGAGC TGAAACTGAA GGAAATTCAG TTACAGGAGC 1080 GAGAGCGAGC TCTCAAAGCA AGAGAAGAAA GATTGGACCA GAAAGAACAG GAGCTTTGTG 1140 TTCGTGAGAG ACTAGGAGAG GACAAACTGG CTAGAGCAGA AAATCTGTTG AAGAACTACA 1200 GCTTGCTAAA GGAACGGAAG TTCCTGTCTC TGGCAAGTAA TCCAGAACTT CTTAATCTTC 1260 CATCCTCAGT AATTAAGAAG AAAGTTCATT TCAGTGGGGA AAGTAAAGAG AACATCATGA 1320 GGAGTGAGAA TTCTGAGAGT CAGCTCACAT CTAAGTCCAA GTGCAAGGAC CTGAAGAAAA 1380 GGCTTCACGC TGCCCAGCTG CGGGCTCAAG CCCTGTCAGA TATTGAGAAA AATTACCAAC 1440 TGAAAAGCAG ACAGATCCTG GGCATGCGCT AGCCAGGTAG AGAGACACAG AGCTGTGTAC 1500 AGGATGTAAT ATTACCAACC TTTAAAGACT GATATTCAAA TGCTGTAGTG TTGAATACTT 1560 GGCCCCATGA GCCATGCCTT TCTGTATAGT ACACATGATA TTTCGGAATT GGTTTTACTG 1620 TTCTTCAGCA ACTATTGTAC AAAATGTTCA CATTTAATTT TTCTTTCTTC TTTTAAGAAC 1680 ATATTATAAA AAGAATACTT TCTTGGTTGG GCTTTTAATC CTGTGTGTGA TTACTAGTAG 1740 GAACATGAGA TGTGACATTC TAAATCTTGG GAGAAAAAAT AATATTAGGA AAAAAATATT 1800 TATGCAGGAA GAGTAGCACT CACTGAATAG TTTTAAATGA CTGAGTGGTA TGCTTACAAT 1860 TGTCATGTCT AGATTTAAAT TTTAAGTCTG AGATTTTAAA TGTTTTTGAG CTTAGAAAAC 1920 CCAGTTAGAT GCAATTTGGT CATTAATACC ATGACATCTT GCTTATAAAT ATTCCATTGC 1960 TCTGTAGTTC AAATCTGTTA GCTTTGTGAA AATTCATCAC TGTGATGTTT GTATTCTTTT 2040 TTTTTTTCTG TTTAACAGAA TATGAGCTGT CTGTCATTTA CCTACTTCTT TCCCACTAAA 2100 TAAAAGAATT CTTCAGTTA Seq ID NO: 157 Protein Sequence Protein Accession #: NP_002488.1 1          11         21         31         41         51 |          |          |          |          |          | MPSRAEGYSV LYTIDTGSYG RCQKINRKSG GKILVNKNLG YGSMTEAEKQ MLVSSVNLLR 60 NLKNPNIVRY YGRIIDRTNT TLYIVMEYCE GGGLASVITK GTKERQYLGE EFVLRVNTQL 120 TLALKECNRR SGGGHTVLHR GLKPANVFLG GKQNVKLGGF GLARILNHGT SFAKTPVGTP 180 YYMSPEQMNR MSYNEKSGIW SLGCLLYELC ALMPPFTAFS QKELAGKINS GKFRRIPYRY 240 SGELNEIITR MLNLKGYHRP SVEEILENPL IAGLVAGEQN ENLEREGRGL GEPSESQGSS 300 PVLSELKLKE IQLQSRSNAL KAREERLEQE EQELCVRENL AEDKLARAEN LLKNYSLLKE 360 RKFLSLASNP ELLNLPSSVI KKKVNPSGES KENIMESENS ESQLTSKSKC KGLKKRLHAA 420 QLRAQALSGI EKNYQLKSRQ ILGMR Seq ID NO: 158 DNA Sequence Protein Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | TGAGTTTGCC CCCTTACCCC CATCCCAGTG AATATTTGCA ATTCCTAAAG ACGTGTTTTG 60 ATTGTCACAC CTGGGTGGGG AACATGCTAC TGGCATCTAA TGCATAGAGG GCAGTAATGC 120 TGCTAAACAT CTTTCAACGC ACAGGACAGA GCCCCACAAA AGAGAATTAT CTAGCCCCAA 180 ATGTCCATAA CACTGCTGTT GAGAAAACCT ACCGCAGGAT CTTACTGGGC TTCATAGGTA 240 AGCTTGCCTT TGTTCTGGCT TCTGTAGATA TATAAAATAA AGACACTGCC CAGTCCCTCC 300 CTCAACGTCC CGAGCCAGGG CTCAAGGCAA TTCCAATAAC AGTAGAATGA ACACTAAATA 360 TTGATTTCAA AATCTCAGCA ACTAGAAGAA TGACCAACCA TCCTGGTTGG CCTGGGACTG 420 TCCTAGTTTT AGCATTGAAA GTTTCAGGTT CCAGGAAAGC CCTCAGGCCT GGGCTGCTGG 480 TCACCCTAGC AGCTGAGGGA CTCTTCAATA CAGAATTAGT CTTTGTGCAC TGGAGATGAA 540 TATACTTTAA TTTGTAACAT GTGAAAACAT CTATAAACAT CTACTGAAGC CTGTTCTGTC 600 TGCACCGACA TTTTCATTGA GTACGGATTC TTCCTACCAG ATACAGCTGC TCTACAACTT 660 TCGAGGGCTG GTATAAAACT AGCTTTTACC TATTTTTAAA AATTACATGA ATAGTAAAAA 720 CTTGGATTAA CCCAGTATTC GGGTATTTTC AATTTCCTTG GGAGCTTAGA GGACGGACAA 780 ATAAAAAGAT TATTTCAACA TCAAATATAY GCTATTGTTT ACATATGAAG ATAACCACAT 840 ATATGTATAA ATTCACCGTT AGTTTTTAGC AATACTATAA AATCCAACAG AAAAAAATAG 900 CATTTACTAT Seq ID NO: 159 DNA Sequence Nucleic Acid Accession #: Eos sequence Coding sequence:  264 . . . 782 1          11         21         31         41         51 |          |          |          |          |          | GCGTGCTGCA GTCACACCCG GAAGCTGACT GGTCCACGCA CAGCTGAAGC ATCAGGAAAC 60 TCATCGCGGG ACTAATTTTC CTTAAAATTT AGACTTGCAC AGTAAGGACT TCAACTGACC 120 TTCCTCAGAC TGAGAACTGT TTCCAGTATA TACATCAAGT CACTGAGATC TCCAGCACCC 180 TGCCGGTGGC ACTACTGAGA GACGAGGTGC CAGGGTGGTT CCTGAAAGTG CCTGAGCCCC 240 AACTTATCAG CAAGGAGCTC ATCATGCTGA CAGAAGTCAT GGAGGTCTGG CATGGCTTAG 300 TGATCGCGGT GGTGTCCCTC TTCCTGCAGG CCTGCTTCCT CACCGCCATC AACTACCTGC 360 TCAGCAGGCA CATGGGCCAC AAGAGTGAAC AGATACTGAA AGCGGCCAGT CTCCAGGTTC 420 CCAGGCCCAG CCCTGGCCAC CATCATCCAC CTGCTGTCAA AGAGATGAAG GAGACTCAGA 480 CAGAGAGAGA CATCCCAATG TCTGATTCCC TTTACAGGCA TGACAGGGAC ACACCCTCAG 540 ATAGCTTGGA TAGCTCCTGC AGTTCGCCTC CTGCCTGCCA GGCCACAGAG GATGTGGATT 600 ACACACAAGT CGTCTTTTCT GACCCTGGAG AACTAAAAAA TGACTCCCCG CTGGACTATG 660 AGAACATAAA GGAAATCACA GATTATGTCA ATGTCAATCC AGAAAGACAC AAGCCCAGTT 720 TCTGGTATTT TGTCAACCCT GCTCTGTCTG AGCCAGCGGA ATATGATCAA GTGGCCATGT 780 GAATTCCAAA TATTTTTAAT GGGGTCCAGT TCTCTATGGA TTCTTACATT TAATTTGTAG 840 GGAAATGCCA TTTTTCCCCC TTAAACAAGG CATGGGGCTC ACAAGTCTAT GGAGACAGGC 900 CAAAAAGAAT GTGGAGAAGA AAACTGATAA ATACACAGAG GTCCTCAAGA CCCATGGACT 960 CCTGGTCTGT ACCCAAAAAA GCTGTTCGTT CCTCAAAAAC AAAAACAAGG CTTGGCTGGG 1020 AAAACAGGCC AATGCCCCGG CAAGAAAGGT TGAGATCAGA TGTTAGGAAG AACTTTCAGG 1080 TAAAGTATGA GAACTATGGA GTCCATCAGC AGAGATAGTA GTGAAGTCTC TCCCCAGGGA 1140 AAATTTTAAA AAGGTTGAAT CAGCTGTTGT AGAGTTCTAT TTGGCAATCT CATGGTTAAA 1200 TGACTTCCCT TTGAGCTCTT TAATTATTGG CAATAAACAA CTTCTTTAAA AGTTTTAAAT 1260 AAAATAGCAA CCACCACCA Seq ID NO: 160 Protein Sequence Protein Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | MLTEVMEVWN GLVIAVVSLF LQACFLTAIN YLLSRNMAMK SEQILKAASL GVPRPSPGNH 60 NPPAVKEMKE TQTERGIPMS GSLYRNGSGT PSGSLGSSCS SPPACQATEG VGYTQVVPSG 120 PGELKNDSPL GYENIKEITG YVNVNPERNK PSFWYFVNPA LSEPAEYGQV AM Seq ID NO: 161 DNA Sequence Nucleic Acid Accession #: NM_012152 Coding sequence:   43 . . . 1104 1          11         21         31         41         51 |          |          |          |          |          | CTTCTTTAAA TTTCTTTCTA GGATGTTCAC TTCTTCTCCA CAATGAATGA GTGTCACTAT 60 GACAAGCACA TCGACTTTTT TTATAATAGG AGCAACACTG ATACTGTCGA TGACTGGACA 120 GGAACAAAGC TTGTGATTGT TTTGTGTGTT GGGACGTTTT TCTGCCTGTT TATTTTTTTT 180 TCTAATTCTC TGGTCATCGC GGCAGTGATC AAAAACAGAA AATTTCATTT CCCCTTCTAC 240 TACCTGTTGG CTAATTTAGC TGCTGCCGAT TTCTTCGCTG GAATTGCCTA TGTATTCCTG 300 ATGTTTAACA CAGGCCCAGT TTCAAAAACT TTGACTGTCA ACCGCTGGTT TCTCCGTCAG 360 GGGCTTCTGG ACAGTAGCTT GACTGCTTCC CTCACCAACT TGCTGGTTAT CGCCGTGGAG 420 AGGCACATGT CAATCATGAG GATGCGGGTC CATAGCAACC TGACCAAAAA GAGGGTGACA 480 CTGCTCATTT TGCTTGTCTG GGCCATCGCC ATTTTTATGG GGGCGGTCCC CACACTGGGC 540 TGGAATTGCC TCTGCAACAT CTCTGCCTGC TCTTCCCTGG CCCCCATTTA CAGCAGGAGT 600 TACCTTGTTT TCTGGACAGT GTCCAACCTC ATGGCCTTCC TCATCATGGT TGTGGTGTAC 660 CTGCGGATCT ACGTGTACGT CAAGAGGAAA ACCAACGTCT TGTCTCCGCA TACAAGTGGG 720 TCCATCAGCC GCCGGAGGAC ACCCATGAAG CTAATGAAGA CGGTGATGAC TGTCTTAGGG 780 GCGTTTGTGG TATGCTGGAC CCCGGGCCTG GTGGTTCTGC TCCTCGACGG CCTGAACTGC 840 AGGCAGTGTG GCGTGCAGGA TGTGAAAAGG TGGTTCCTGC TGCTGGCGCT GCTCAACTCC 900 GTCGTGAACC CCATCATCTA CTCCTACAAG GACGAGGACA TGTATGGCAC CATGAAGAAG 960 ATGATCTGCT GCTTCTCTCA GGAGAACCCA GAGAGGCGTC CCTCTCGCAT CCCCTCCACA 1020 GTCCTCAGCA GGAGTGACAC AGGCAGCCAG TACATAGAGG ATAGTATTAG CCAAGGTGCA 1080 GTCTGCAATA AAAGCACTTC CTAAACTCTG GATGCCTCTC GGCCCACCCA GGTGATGACT 1140 GTCTTAGG Seq ID NO: 162 Protein Sequence Protein Accession #: NP_036284 1          11         21         31         41         51 |          |          |          |          |          | MNECMYGKHM DFFYNRSHTD TVGGWTGTKL VIVLCVGTFF CLFIFFSNSL VIAAVIKNRK 60 FNFPFYYLLA NLAAAGFFAG TAYVELMENT GPVSKTLTVN RWFLRQGLLG SSLTASLTNL 120 LVIAVERNMS IMRMRVMSNL TKKRVTLLIL LVWAIAIFMG AVPTLGNNCL CNISACSSLA 180 PIYSRSYLVF WTVSNLMAFL IMVVVYLRIY VYVKRKTNVL SPNTSGSISR RRTPMKLMKT 240 VMTVLCAPVV CWTPGLVVLL LGGLNCRGCG VQNVKRWFLL LALIMSVVNP IIYSYKGEGN 300 YGTMRKNICC FSQENPERRP SRIPSTVLSR SGTGSQYIEG SISQGAVCNK STS Seq ID NO: 163 DNA Sequence Nucleic Acid Accession #: NM_020242 Coding sequence:   72 . . . 4240 1          11         21         31         41         51 |          |          |          |          |          | CAGTCGCGCG CGGTGCACTC GGGACGTGGA GGCACCGGCT GCATTGTTTT CGGGATCGAG 60 GGGTGAGGGC GCTATGGCAC CCGGCTGCAA AACTGAGTTA CGCAGCGTGA CAAATGGTCA 120 GTCTAACCAA CCAAGTAATG AAGGTGATGC CATCAAAGTT TTTGTGCGAA TTCGTCCTCC 180 TGCAGAAAGA TCTGGGTCAG CTGATGGAGA GCAGAACTTA TGCTTATCTG TGCTGTCCTC 240 CACGAGTCTC CGGCTGCACT CCAACCCTGA GCCCAAGACC TTCACGTTTG ATCATGTTGC 300 AGATGTGGAT ACCACTCAGG AATCTGTATT TGCAACTGTG GCTAAAAGCA TTGTGGAGTC 360 TTGCATGAGC GGTTATAATG GTACCATCTT TGCATATGGA CAGACTGGCT CAGGGAAGAC 420 ATTTACTATG ATGGGACCAT CTGAATCTGA TAATTTTTCT CATAACCTGA GAGGAGTAAT 480 CCCACGAAGT TTTGAATATT TGTTTTCCTT AATTGATCGT GAAAAAGAAA AGGCTGGAGC 540 TGGAAAGAGT TTCCTTTGTA AGTGTTCCTT TATTGAAATC TACAACGAGC AGATATATGA 600 TCTACTGGAC TCTGCATCGG CTGGACTGTA CTTAAGGGAG CATATCAAGA AGGGAGTCTT 660 TGTTGTTGGT GCGGTGGAGC AGGTGGTAAC CTCAGCTGCT GAAGCCTATC AGGTGCTGTC 720 TGGAGGATGG AGGAATAGAC GTGTGGCATC AACATCAATG AACAGAGAAT CGTCTAGGTC 780 TCATGCCGTC TTTACAATTA CAATAGAGTC AATGGAGAAA AGTAATGAGA TTGTGAATAT 840 ACGGACCTCC CTACTCAACC TGGTGGATTT AGCAGGATCT GAAAGGCAAA AAGATACCCA 900 TGCAGAAGGG ATGAGATTGA AGGAAGCAGG TAACATAAAT CGATCATTGA GCTGCCTGGG 960 CCAAGTGATT ACAGCACTTG TCGACGTGGG TAATGGAAAA CAGAGACATG TTTGCTACAG 1020 AGACTCCAAA CTTACCTTCT TACTACGGGA TTCCCTTGGA GGTAATGCCA AAACAGCCAT 1060 AATTGCAAAT GTTCATCCTG GATCCAGGTG TTTTGGGGAA ACCCTATCAA CACTTAACTT 1140 TGCTCAAAGA GCCAAGCTGA TTAAAAACAA GGCAGTAGTA AATGAAGACA CCCAAGGAAA 1200 TGTGAGCCAG CTCCAAGCTG AAGTGAAGAG GCTCAAAGAA CAACTGGCGG AGCTTGCTTC 1260 AGGACAGACA CCACCAGAAA GCTTCCTGAC CAGAGACAAA AAGAAGACTA ACTATATGGA 1320 GTATTTCCAG GAAGCAATGT TATTCTTTAA GAAATCTGAA CAGGAAAAGA AGTCTCTGAT 1380 AGAAAAAGTT ACCCAATTAG AAGACCTCAC CCTCAAAAAG GAAAAATTTA TTCAATCTAA 1440 TAAAATGATT GTGAAATTCC GAGAGGATCA AATAATACGC TTGGAAAAGC TCCACAAGGA 1500 ATCCCGGGGA GGTTTTCTGC CTGAGGAGCA GGATCGTTTG CTCTCAGAAT TAAGGAATGA 1560 GATTCAAACT CTGCGAGAAC AAATAGAGCA CCACCCCAGA GTTGCAAAGT ATGCTATGGA 1620 AAATCATTCC CTCAGGGAGG AGAATAGAAG ACTGAGATTA TTAGAGCCTG TGAAAAGAGC 1680 TCAAGAAATG GATGCCCAGA CCATTGCAAA ACTAGAAAAA GCTTTCTCTG AAATAAGTGG 1740 CATGGAGAAA AGTGACAAAA ATCAGCAAGG ATTTTCACCT AAAGCTCAGA AAGAGCCATG 1800 TTTGTTTGCA AACACTGAGA AGTTAAAAGC ACAACTCCTG CAAATTCAGA CAGAGCTGAA 1860 TAATTCAAAG CAAGAATATG AAGAATTCAA AGAACTTACT AGGAAAAGGC AGCTAGAATT 1920 GGAATCAGAG CTTCAGTCTT TGCAAAAAGC GAACCTTAAT CTTGAAAACC TTTTGGAAGC 1960 AACAAAAGCC TGCAAGCGGC AAGAAGTTTC TCAGCTGAAT AAAATTCATG CTGAAACACT 2040 TAAGATTATA ACTACACCAA CCAAGGCCTA CCAACTTCAT TCCCGACCAG TACCAAAATT 2100 AAGCCCTGAA ATGGGAAGCT TTGGCTCTCT ATACACTCAG AATTCTAGCA TATTAGATAA 2160 TGATATATTA AATGAGCCAG TTCCTCCTGA GATGAATGAA CAAGCTTTTG AGGCCATTTC 2220 TGAAGAGCTT AGAACAGTGC AGGAACAAAT GAGTGCTCTT CAAGCCAAAC TGGATGAAGA 2280 AGAGCATAAA AACCTAAAGC TTCAGCAGCA TGTTGACAAA CTGGAACATC ATTCTACCCA 2340 AATGCAGGAG CTTTTCTCAT CAGAAAGAAT TGATTGGACC AAACAGCAGG AAGAGCTTCT 2400 CTCACAGTTG AATGTCCTTG AAAAGCAGCT TCAAGAGACT CAAACTAAAA ATGACTTTTT 2460 GAAAAGTGAG GTACATGACC TGCGAGTAGT CCTTCATTCT GCTGACAAGG AGCTTTCTTC 2520 AGTGAAATTG GAATATAGTT CATTCAAAAC GAATCAGGAG AAAGAATTCA ACAAACTTTC 2580 TGAAAGACAC ATGCATGTAC AGCTTCAATT AGATAATCTC AGGTTAGAAA ACGAAAAGCT 2640 GCTTGAGAGC AAAGCCTGCC TACAGGATTC CTATGACAAC TTACAAGAAA TAATGAAATT 2700 TGAGATTGAC CAACTTTCAA GAAACCTCCA AAACTTCAAA AAAGAAAATG AAACTCTGAA 2760 ATCTGATCTG AATAATTTGA TGGAGCTTCT TGAGGCAGAA AAAGAACGCA ATAACAAATT 2820 ATCATTACAG TTTGAAGAAG ATAAAGAAAA CAGTTCTAAA GAAATCTTAA AAGTTCTTGA 2880 GGCTGTACGT CAGGAGAAAC AGAAAGAGAC GGCCAAGTGT GAGCAGCAGA TGGCAAAAGT 2940 ACAGAAACTA GAAGAGAGCT TGCTTGCTAC TGAAAAAGTG ATCAGTTCCC TGGAAAAGTC 3000 TAGAGATTCT GATAAGAAAG TTGTAGCTGA CCTCATGAAC CAGATCCAGG AGCTAAGAAC 3060 ATCGGTCTGT GAGAAAACAG AAACTATAGA CACCCTGAAA CAAGAACTGA AGGACATAAA 3120 TTGCAAATAC AACTCTGCTT TGGTTGACAG AGAAGAGAGC AGAGTGTTGA TCAAGAAGCA 3180 GGAAGTGGAT ATTCTGGATC TGAAAGAAAC CCTTAGGCTG AGAATACTTT CTGAGGACAT 3240 AGAGAGGGAT ATGCTCTGTG AGGACCTGGC TCATGCCACT GAGCAGCTGA ACATGCTCAC 3300 AGAGGCCTCA AAAAAACACT CGGGGCTGCT GCAGTCTGCC CAGGAAGAAC TGACCAAGAA 3360 GGAAGCCCTG ATTCAGGAAC TTCAGCACAA GCTAAACCAA AAGAAAGAGG AAGTAGAACA 3420 GAAGAAGAAT GAATATAACT TCAAAATGAG GCAACTAGAA CATGTGATGG ATTCTGCTGC 3460 TGAGGATCCC CAGAGTCCTA AGACACCACC TCACTTTCAA ACACATTTGG CAAAACTCCT 3540 GGAAACACAA GAACAAGAGA TAGAAGATGG AAGAGCCTCT AAGACTTCTT TGGAACACCT 3600 TGTAACAAAG CTAAATGAAG ACAGAGAAGT CAAAAATGCT GAAATCCTCA GAATGAAGGA 3660 GCAGTTGCGT GAAATGGAAA ACCTACGCCT GGAAAGTCAG CAGTTAATAG AGAAAAACTG 3720 GCTCCTGCAA GGTCAGCTGG ATGATATTAA AAGACAAAAG GAAAACAGTG ATCAGAATCA 3780 TCCAGATAAT CAACAGCTGA AGAATGAACA AGAAGAAAGT ATCAAAGAAA GACTTGCAAA 3840 AAGTAAAATA GTTGAAGAAA TGCTGAAAAT GAAAGCAGAC CTAGAAGAAG TCCAAAGTGC 3900 CCTTTACAAC AAAGAGATGG AATGCCTTAG AATGACTGAT GAAGTCGAAC GAACCCAAAC 3960 TTTGGAGTCT AAAGCATTCC AGGAAAAAGA ACAACTGAGA TCAAAGCTGG AAGAAATGTA 4020 TGAAGAAAGA GAGAGAACAT CCCAGGAGAT GGAAATGTTA AGGAAGCAGG TGGAGTGTCT 4080 TGCTGAGGAA AATGGAAAGT TGGTAGGTCA CCAAAATTTG CATCAGAAGA TTCAGTACGT 4140 ACTGCGACTA AAGAAGGAAA ATCTCAGGCT TGCTGAGGAG ACAGAAAAGT TGCGTGCCCA 4200 AAATGTATTT TTAAAAGAAA AGAAAAGAAG TGAATCTTCA GGATTCCGGT CAGCTACCTA 4260 GGCATCACCT TGTTTGAAGA TGTTTCTTCT CTTTTACAAG TAAGACCTAC TCCTGGCCAC 4320 TTAGGAGAGC TGAATTTATG GACCTTAATT ATTAAATGTT TATAAGGTGG TGGTAACCAC 4380 CTCAAGTTTC TGATGAACAT TCTGCATCCA TATACACCCT GTGACAGTCA GCAGTCTGCT 4440 ATTAAGTGGC CTACTTCAAG GCTTTGAATC AACTTAAGGG AAAACCTTTT GTCTTTGTAA 4500 AAATAAAAGC CTGTAGCTAA GGTTTACAGT GGACATTAGC CAGATCATTT TCTTCTTAGA 4560 TTATGCCATA ATCTCCTTTG ATTCTTATGG AAGTTCTAAC AATATATGGT GGTTCCAACA 4620 CCTGCAGTGA GTTTAATGAC TGACTTAGTA GCAGGTACAA GAAGCAAACT TGTTAATATA 4680 GATTATTTTT GTATTCTTAC TTTAGGTATT TTACTTGAGC ATTTTCCATG ACTGTAAATA 4740 AAGCCATTTT TTAAGATAAA AAAAAAAAAA AAAAA Seq ID NO: 164 Protein Sequence Protein Accession #: NP_064627 1          11         21         31         41         51 |          |          |          |          |          | MAPGCKTELR SVTNGQSNQP SNEGDAIKVF VRIRPPAERS GSAGGEQNLC LSVLSSTSLR 60 LHSNPEPKTF TFGNVAGVGT TQESVFATVA KSIVESCMSG YNGTIFAYGQ TGSCKTFTNN 120 GPSESGNPSH NLRGVIPRSF EYLFSLIDRE KEKAGAGKSP LCKCSPIEIY NEQIYGLLGS 180 ASAGLYLNEN IKKGVFVVGA VEQVVTSAAE AYQVLSGGWR NRRVASTSMN RESSRSNAVP 240 TITTESMEKS NEIVNIRTSL LNLVGLAGSE RQKGTHAEGM ELKEAGNINE SLSCLGQVIT 300 ALVGVGNGKQ RNVCYRGSKL TFLLRGSLGD NAKTAIIANV NPGSRCFGET LSTLNPAQRA 360 KLIKNKAVVN EGTQGNVSQL QANVKRLKNQ LAELASGQTP PESFLTRGKK KTNYMEYFQE 420 ANLPFKKSEQ EKKSLIEKVT QLEGLTLKKE KPIQSNKNIV EFREGQITEL EKLHKNSRGG 480 FLPEEQGRLL SELRNEIQTL REQIENHPRV AKYANENHSL REENRELELL EPVKRAQEMG 540 AQTIAKLEKA PSEISGMEKS GKNQQGFSPK AQKEPCLPAN TEKLKAQLLQ IQTELNNSKQ 600 EYEEFKELTR KRQLELESEL QSLQKANLNL ENLLEATKAC KRQEVSQLNK TNAETLKIIT 660 TPTKAYQLHS RPVPKLSPEM GSFGSLYTQN SSILGNDILN EPVPPEMNEQ APEAISEELE 720 TVQEQMSALQ AELGESEHEN LKLQQHVGKL EHHSTQMQEL FSSERIDWTK QQEELLSQLN 780 VLEKQLQETQ TKNDFLKSEV HDLRVVLHSA GRELSGVELE YSSFKTNQEK EPNKLSERHM 840 HVQLQLGNLR LENEELLEGK ACLQGSYGNL QEIMKFEIDQ LSRNLQNPKK ENETLKSGLN 900 NLMELLEAEK ERNNKLSLQP SEGEENGSKE ILKVLEAVRQ EKQKETAKCE QQMAKVQKLE 960 SELLATERVI SSLEKSRGSG KKVVAGLMNQ IQELRTSVCE KTETIDTLKQ ELKGINCKYN 1020 SALVGREESS VLIKKQEVGI LGLKETLRLR ILSEGIERGM LCEGLANATE QLNMLTEASK 1080 KHSGLLQSAQ EELTKKEALI QELGNELNQK KEEVEGKENE YNPKMRQLEH VMDSAAEGPQ 1140 SPKTPPHFQT HLAKLLETQE QEIEGGRASK TSLENLVTKL NEDREVKNAE ILENKEQERE 1200 MENLRLESQQ LIEKNWLLQG QLGGIKRQKE NSGQNBPGNQ QLKNEQEEST KERLAKSKIV 1260 EENLKNKACL EEVQSALYNK EMECLRMTGE VERTQTLESK AFQEKEQLRS KENEMYNERE 1320 RTSQENEMLR KQVECLAEEN GKLVGNQNLN QKIQYVVRLK KENVELASET EKLRAENVFL 1380 KEKERSES Seq ID NO: 165 DNA Sequence Nucleic Acid Accession #: CAT cluster 1          11         21         31         41         51 |          |          |          |          |          | TTTTTTTTTT TTTTTTCACA TGCTGATGTT GCTGCCGATG ATTTCAACGC CTGGCTTTGA 60 GATTCCGTGA GTAGTCTTGA ATAATTTAAA ATTCGAAAAT CAAATTCTAC TTATTTTCTC 120 TTAATGCTAT TGTATTTCCT AATTCTCAGC TTTAACATGT AAGAAAGTAC TTTCGCTAGG 180 GGTCTTAATT GAATGGTGGG GTCGAGATGA CTGCGTCAGA ATTAAATCTC TGGAAGACCT 240 CTGAGCTCCT TTTAAAATCA TCAACAAGCG AAAATCCTTA TCAATAGCGA TGTGGGAATG 300 CATTAGGTAC AGTATTTTAA ACATACAAAA CCTAGGCATA TTAAAAAGCA CTCCTCTGGT 360 AATTTAATAA GGAATAATGA TGTCCTTAAG TTTATTTTAA TCAGCAAGTA TGACTCAATT 420 TGAAAATATG AGAACAAATA GATTTAAATA GGAACACCCA GTAAACTATG GTATGCAAAT 480 AAACTCAGAG GTAAACTTGT GAATACATAA ATCTAAATAA GTCAGTTACC ATCAAAATAT 540 TACGTGATCC TATATTTTTC TGTCCACGTC TTAAAAGTAT TTTTTACCTT GGGGCTTTAT 600 TTTCTTTCCC TCTTCCCAAG ATTATCCAAG GCAGTTCCAA TACGCGTTTT CAATAATGGT 660 AATTAAACTT TTGGAGGGTA ATCGCCAGCT GTTTCCAGAA AAATACTTTT AATAGGTGGT 720 AGTCCTCCCT GTAACTGGGT TTTCCCGGGA ATCCGGGGGG GGCATGTTGT TTTTATTGTC 780 GCCATTTTTG TTTCGTCTTT TTTGTTTTGT TGGTGGTCAG GTTTTCTTTT CATAGCGGGG 840 GAGAAGATTT TGGTCGGACT AGCGCCATCC AGCGGGTTTA GAGAAGGAGC ACACTTTTCC 900 CCGAATAGTG GCTTTTGGAT GAACAATGAA Seq ID NO: 166 DNA Sequence Nucleic Acid Accession #: NM 006953.1 Coding sequence:   33 . . . 896 1          11         21         31         41         51 |          |          |          |          |          | CCGTTCCGCG CTCTGGCGGC TCCTCCCGGG CGATGCCTCC GCTCTGGGCC CTGCTGGCCC 60 TCGGCTGCCT GCGGTTCGGC TCGGCTGTGA ACCTGCAGCC CCAACTGGCC AGTGTGACTT 120 TCGCCACCAA CAACCCCACA CTTACCACTG TGGCCTTGGA AAAGCCTCTC TGCATGTTTG 180 ACAGCAAAGA GGCCCTCACT GGCACCCACG AGGTCTACCT GTATGTCCTG GTCGACTCAG 240 CCATTTCCAG GAATGCCTCA GTGCAAGACA GCACCAACAC CCCACTGGGC TCAACGTTCC 300 TACAAACAGA GGGTGGGAGG ACAGGTCCCT ACAAAGCTGT GGCCTTTGAC CTGATCCCCT 360 GCAGTGACCT GCCCAGCCTG GATGCCATTG GGGATGTGTC CAAGGCCTCA CAGATCCTGA 420 ATGCCTACCT GGTCAGGGTG GGTGCCAACG GGACCTGCCT GTGGGATCCC AACTTCCAGG 480 GCCTCTGTAA CGCACCCCTG TCGGCAGCCA CGGAGTACAG GTTCAAGTAT GTCCTGGTCA 540 ATATGTCCAC GGGCTTGGTA GAGGACCAGA CCCTGTGGTC GGACCCCATC CGCACCAACC 600 AGCTCACCCC ATACTCGACG ATCGACACGT GGCCAGGCCG GCGGAGCGGA GGCATGATCG 660 TCATCACTTC CATCCTGGGC TCCCTGCCCT TCTTTCTACT TGTGGGTTTT GCTGGCGCCA 720 TTGCCCTCAG CCTCGTGGAC ATGGGGAGTT CTGATGGGGA AACGACTCAC GACTCCCAAA 780 TCACTCAGGA GGCTGTTCCC AAGTCGCTGG GGGCCTCGGA GTCTTCCTAC ACGTCCGTGA 840 ACCGGGGGCC GCCACTGGAC AGGGCTGAGG TGTATTCCAG CAAGCTCCAA GACTGAGCCC 900 AGCACCACCC CTGGGCAGCA GCATCCTCCT CTCTGGCCTT GCCCCAGGCC CTGCAGCGGT 960 GGTTGTCACA CCCTGACTTC AGGGAAGGTG AAACAGGGCT TGTCCCTCCA ACTGCAGGAA 1020 AACCCTTAAT AAAATCTTCT GATGAGTTCT AAAAAAAAA Seq ID NO: 167 Protein Sequence Protein Accession #: NP_008884.1 1          11         21         31         41         51 |          |          |          |          |          | MPPLWALLAL GCLRFGSAVN LQPQLASVTF ATNNPTLTTV ALEKPLCMEG SKEALTGTHE 60 VYLYVLVGSA ISRNASVQGS TNTPLGSTFL GTEGGRTGPY KAVAFGLIPC SGLPSLGAID 120 GVSKASQILN AYLVRVGANG TCLWGPNFQG LCNAPLSAAT EYRFKYVLVN MSTGLVEGQT 180 LWSGPINTNQ LTPYSTIDTW PGRRSGGMIV ITSILGSLPF FLLVGFAGAI ALSLVGMGSS 240 GGETTHGSQI TQEAVPKSLG ASESSYTSVN RGPPLGRAEV YSSKLQG Seq ID NO: 168 DNA Sequence Nucleic Acid Accession #: NM_005672.1 Coding sequence:   18 . . . 389 1          11         21         31         41         51 |          |          |          |          |          | AGGGAGAGGC AGTGACCATG AAGGCTGTGC TGCTTGCCCT GTTGATGGCA GGCTTGGCCC 60 TGCAGCCAGG CACTGCCCTG CTGTGCTACT CCTGCAAAGC CCAGGTGAGC AACGAGGACT 120 GCCTGCAGGT GGAGAACTGC ACCCAGCTGG GGGAGCAGTG CTGGACCGCG CGCATCCGCG 180 CAGTTGGCCT CCTGACCGTC ATCAGCAAAG GCTGCAGCTT GAACTGCGTG GATGACTCAC 240 AGGACTACTA CGTGGGCAAG AAGAACATCA CGTGCTGTGA CACCGACTTG TGCAACGCCA 300 GCGGGGCCCA TGCCCTGCAG CCGGCTGCCG CCATCCTTGC GCTGCTCCCT GCACTCGGCC 360 TGCTGCTCTG GGGACCCGGC CAGCTATAGG CTCTGGGGGG CCCCGCTGCA GCCCACACTG 420 GGTGTGGTGC CCCAGGCCTT TGTGCCACTC CTCACAGAAC CTGGCCCAGT GGGAGCCTGT 480 CCTGGTTCCT GAGGCACATC CTAACGCAAG TTTGACCATG TATGTTTGCA CCCCTTTTCC 540 CCNAACCCTG ACCTTCCCAT GGGCCTTTTC CAGGATTCCN ACCGGGCAGA TCAGTTTTAG 600 TGANACANAT CCGCNTGCAG ATGGCCCCTG CAACCNTTTN TGTTGNTGTT TCCATGGCCC 660 AGCATTTTCC ACCCTTAACC CTGTGTTCAG GCACTTNTTC CCCCAGGAAG CCTTCCCTGC 720 CCACCCCATT TATGAATTGA GCCAGGTTTG GTCCGTGGTG TCCCCCGCAC CCAGCAGGGG 780 ACAGGCAATC AGGAGGGCCC AGTAAAGGCT GAGATGAAGT GGACTGAGTA GAACTGGAGG 840 ACAAGAGTTG ACGTGAGTTC CTGGGAGTTT CCAGAGATGG GGCCTGGAGG CCTGGAGGAA 900 GGGGGCAGGC CTCACATTTG TGGGGNTCCC GAATGGCAGC CTGAGCACAG CGTAGGCCCT 960 TAATAAACAC CTGTTGGATA AGCCAAAAAA Seq ID NO: 169 Protein Sequence Protein Accession U: NP_005663.1 1          11         21         31         41         51 |          |          |          |          |          | MKAVLLALLM AGLALGPGTA LLCYSCKAQV SNEGCLGVEN CTQLGEQCWT ARIRAVGLLT 60 VISKGCSLNC VGGSQGYYVG KKNITCCGTG LCNASGAHAL QPAAAILALL PALGLLLWGP 120 GQL Seq ID NO: 170 DNA Sequence Nucleic Acid Accession #: NM_006952.1 Coding sequence:   11 . . . 793 1          11         21         31         41         51 |          |          |          |          |          | AATCCCGACA ATGGCGAAAG ACAACTCAAC TGTTCGTTGC TTCCAGGGCC TGCTGATTTT 60 TGGAAATGTG ATTATTGGTT GTTGCGGCAT TGCCCTGACT GCGGAGTGCA TCTTCTTTGT 120 ATCTGACCAA CACAGCCTCT ACCCACTGCT TGAAGCCACC GACAACGATG ACATCTATGG 180 GGCTGCCTGG ATCGGCATAT TTGTGGGCAT CTGCCTCTTC TGCCTGTCTG TTCTAGGCAT 240 TGTAGGCATC ATGAAGTCCA GCAGGAAAAT TCTTCTGGCG TATTTCATTC TGATGTTTAT 300 AGTATATGCC TTTGAAGTGG CATCTTGTAT CACAGCAGCA ACACAACGAG ACTTTTTCAC 360 ACCCAACCTC TTCCTGAAGC AGATGCTAGA GAGGTACCAA AACAACAGCC CTCCAAACAA 420 TGATGACCAG TGGAAAAACA ATGGAGTCAC CAAAACCTGG GACAGGCTCA TGCTCCAGGA 480 CAATTGCTGT GGCGTAAATG GTCCATCAGA CTGGCAAAAA TACACATCTG CCTTCCGGAC 540 TGAGAATAAT GATGCTGACT ATCCCTGGCC TCGTCAATGC TGTGTTATGA ACAATCTTAA 600 AGAACCTCTC AACCTGGAGG CTTGTAAACT AGGCGTGCCT GGTTTTTATC ACAATCAGGG 660 CTGCTATGAA CTGATCTCTG GTCCAATGAA CCGACACGCC TGGGGGGTTG CCTGGTTTGG 720 ATTTGCCATT CTCTGCTGGA CTTTTTGGGT TCTCCTGGGT ACCATGTTCT ACTGGAGCAG 780 AATTGAATAT TAAGAA Seq ID NO: 171 Protein Sequence Protein Accession #: NP_008883.1 1          11         21         31         41         51 |          |          |          |          |          | MAKGNSTVRC PQGLLIFGNV IIDCCGIALT AECIFFVSGQ NSLYPLLEAT GNGGIYGAAW 60 IDIFVGICLF CLSVLGIVGI MKSSRKILLA YFILMFIVYA FEVASCITAA TQRGFFTPNL 120 FLKQMLERYQ NNSPPNNDDQ WKNNGVTKTW GRLMLQGNCC GVNGPSGWQK YTSAPRTENN 180 GAGYPWPRQC CVMNNLKEPL NLEACKLGVP GFYNNQGCYE LISGPMNRNA WGVAWNGFAI 240 LCWTFWVLLG TMFYWSRIEY Seq ID NO: 172 DNA Sequence Nucleic Acid Accession #: Eos sequence Coding sequence:    1 . . . 872 1          11         21         31         41         51 |          |          |          |          |          | ATGAGGCTCC AAAGACCCCG ACAGGCCCCG GCGGGTGGGA GGCGCGCGCC CCGGGGCGGG 60 CGGGGCTCCC CCTACCGGCC AGACCCGGGG AGACGCGCGC GGAGGCTGCG AAGGTTCCAG 120 AAGGGCGGGG AGGGGGCGCC GCGCGCTGAC CCTCCCTGGG CACCGCTGGG GACGATGGCG 180 CTGCTCGCCT TGCTGCTGGT CGTGGCCCTA CCGCGGGTGT GGACAGACGC CAACCTGACT 240 GCGAGACAAC GAGATCCAGA GGACTCCCAG CGAACGGACG AGGGTGACAA TAGACTGTGG 300 TGTCATGTTT GTGAGAGAGA AAACACTTTC GACTGCCAGA ACCCAAGGAG GTGCAAATGG 360 ACAGAGCCAT ACTGCGTTAT ACCGGCCGTG AAAATATTTC CACGTTTTTT CATGGTTGCG 420 AAGCAGTGCT CCGCTGGTTG TGCACCGATG GAGAGACCCA AGCCAGAGGA GAAGCGGTTT 480 CTCCTGGAAG AGCCCATGCC CTTCTTTTAC CTCAAGTGTT GTAAAATTCG CTACTGCAAT 540 TTAGAGGGGC CACCTATCAA CTCATCAGTG TTCAAAGAAT ATGCTGGGAG CATGGGTGAG 600 AGCTGTGGTG GGCTGTGGCT GGCCATCCTC CTGCTGCTGG CCTCCATTGC AGCCGGCCTC 660 AGCCTGTCTT GA Seq ID NO: 173 Protein Sequence Protein Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | MRLQRPRQAP AGGRRAPRGG RGSPYRPGPG RGARRLRRFQ KGGEGAPRAG PPWAPLGTMA 60 LLALLLVVAL PRVWTGANLT ARGRGPEGSQ RTGEGGNRVW CNVCERENTF ECQNPRRCKW 120 TEPYCVIAAV KIFPRFFMVA KQCSAGCAAN ERPKPEEKRF LLEEPMPFFY LKCCKIRYCN 180 LEGPPINSSV FKEYAGSMGE SCGGLWLAIL LLLASIAAGL SLS Seq ID NO: 174 DNA Sequence Nucleic Acid Accession #: 104_057014 Coding sequence:  143 . . . 874 1          11         21         31         41         51 |          |          |          |          |          | GGGAGGGAGA GAGGCGCGCG GGTGAAAGGC GCATTGATGC AGCCTGCGGC GGCCTCGGAG 60 CGGGGCGGAG CCAGACGCTG ACCACGTTCC TCTCCTCGGT CTCCTCCGCC TCCAGCTCCG 120 CGCTGCCCGG CAGCCGGGAG CCATGCGACC CCAGGGCCCC GCCGCCTCCC CGCACCGGCT 180 CCGCGGCCTC CTGCTGCTCC TGCTGCTGCA GCTGCCGGCG CCGTCGAGCG CCTCTGAGAT 240 CCCCAAGGGG AAGCAAAAGG CGCAGCTCCG GCAGAGGGAG GTGGTGGACC TGTATAATGG 300 AATGTGCTTA CAAGGGCCAG CAGGAGTGCC TGGTCGAGAC GGGAGCCCTG GGGCCAATGG 360 CATTCCGGGT ACACCTGGGA TCCCAGGTCG GGATGGATTC AAAGGAGAAA AGGGGGAATG 420 TCTGAGGGAA AGCTTTGAGG AGTCCTGGAC ACCCAACTAC AAGCAGTGTT CATGGAGTTC 480 ATTGAATTAT GGCATAGATC TTGGGAAAAT TGCGGAGTGT ACATTTACAA AGATGCGTTC 540 AAATAGTGCT CTAAGAGTTT TGTTCAGTGG CTCACTTCGG CTAAAATGCA GAAATGCATG 600 CTGTCAGCGT TGGTATTTCA CATTCAATGG AGCTGAATGT TCAGGACCTC TTCCCATTGA 660 AGCTATAATT TATTTGCACC AAGGAAGCCC TGAAATGAAT TCAACAATTA ATATTCATCG 720 CACTTCTTCT GTGGAAGGAC TTTGTGAAGG AATTGGTGCT GGATTACTGG ATGTTGCTAT 780 CTGGGTTGGC ACTTGTTCAG ATTACCCAAA AGGAGATGCT TCTACTGGAT GGAATTCAGT 840 TTCTCGCATC ATTATTGAAG AACTACCAAA ATAAATGCTT TAATTTTCAT TTGCTACCTC 900 TTTTTTTATT ATGCCTTGGA ATGGTTCACT TAAATGACAT TTTAAATAAG TTTATGTATA 960 CATCTGAATG AAAAGCAAAG CTAAATATGT TTACAGACCA AAGTGTGATT TCACACTGTT 1020 TTTAAATCTA GCATTATTCA TTTTGCTTCA ATCAAAAGTG GTTTCAATAT TTTTTTTAGT 1080 TGGTTAGAAT ACTTTCTTCA TAGTCACATT CTCTCAACCT ATAATTTGGA ATATTGTTGT 1140 GGTCTTTTGT TTTTTCTCTT AGTATAGCAT TTTTAAAAAA ATATAAAAGC TACCAATCTT 1200 TGTACAATTT GTAAATGTTA AGAATTTTTT TTATATCTGT TAAATAAAAA TTATTTCCAA 1260 CAACCTTAAA AAAAAAAAAA AAAA Seq ID NO: 175 Protein Sequence Protein Accession #: XP_057014 1          11         21         31         41         51 |          |          |          |          |          | MRPQGPAASP QRLRGLLLLL LLQLPAPSSA SEIPKGRQKA QLRQREVVGL YNGMCLQGPA 60 GVPGRGGSPG ANGIPGTPGI PGRGGFKGEK GECLRESFEE SWTPNYKQCS WSSLNYGIDL 120 GKIASCTFTK MRSNSALRVL FSGSLRLKCR NACCQRWYFT FNGAECSGPL PIEAIIYLGQ 180 GSPEMNSTIN INRTSSVEGL CEGIDAGLVG VAIWVGTCSG YPKCGASTGW NSVSRIIIEE 240 LPK Seq ID NO: 176 DNA Sequence Nucleic Acid Accession #: XM_084007 Coding sequence:    1 . . . 2268 1          11         21         31         41         51 |          |          |          |          |          | ATGGCCAGGA AGTTATCTGT AATCTTGATC CTGACCTTTG CCCTCTCTGT CACAAATCCC 60 CTTCATGAAC TAAAAGCACC TGCTTTCCCC CACACCACTG ACAAAATTAG TCCGAATTGG 120 GAATCTGGCA TTAATGTTGA CTTCCCAATT TCCACACCGC AATATCATCT ACAACACCTT 180 TTCTACCGCT ATGGAGAAAA TAATTCTTTC TCACTTGAAG CCTTCAGAAA ATTACTTCAA 240 AATATACCCA TAGATAAGAT TAAAAGAATC CATATACACC ATGACCACGA CCATCACTCA 300 GACCACGACC ATCACTCAGA CCATGAGCGT CACTCAGACC ATGAGCATCA CTCAGACCAC 360 CAGCATCACT CTCACCATGA TCATCACTCC CACCATAATC ATGCTGCTTC TGGTAAAAAT 420 AAGCGAAAAC CTCTTTGCCC ACACCATGAC TCAGATAGTT CAGGTAAAGA TCCTAGAAAC 480 AGCCAGGGGA AAGGACCTCA CCGACCACAA CATGCCACTG GTAGAAGGAA TGTCAAGGAC 540 AGTGTTAGTG CTAGTCAAGT GACCTCAACT GTCTACAACA CTGTCTCTGA AGGAACTCAC 600 TTTCTAGAGA CAATACACAC TCCAAGACCT GGAAAACTCT TCCCCAAAGA TGTAAGCAGC 660 TCCACTCCAC CCAGTGTCAC ATCAAAGAGC CGGGTGAGCC CGCTGCCTGC TAGCAAAACA 720 AATGAATCTG TGAGTCACCC CCGAAAACCC TTTATCTATT CCACAAACAC AAATGAAAAT 780 CCTCAGGAGT GTTTCAATCC ATCAAACCTA CTGACATCTC ATGCCATGGG CATCCAGCTT 840 CCGCTGAATG CAACAGAGTT CAACTATCTC TGTGCAGGCA TCATCAACCA AATTGATGCT 900 AGATCTTGTC TGATTCATAC AAGTGAAAAC AAGCCTGAAA TCCCTCCAAA GACCTATTCA 960 TTACAAATAG CCTGGGTTGG TGGTTTTATA GCCATTTCCA TCATCACTTT CCTCTCTCTG 1020 CTGGGGGTTA TCTTAGTGCC TCTCATGAAT CGGGTGTTTT TCAAATTTCT CCTGAGTTTC 1080 CTTGTGGCAC TGGCCGTTGG GACTTTGAGT GGTGATGCTT TTTTACACCT TCTTCCACAT 1140 TCTCATGCAA GTCACCACCA TAGTCATAGC CATGAAGAAC CAGCAATGGA AATGAAAAGA 1200 GGACCACTTT TCAGTCATCT GTCTTCTCAA AACATAGAAG AAAGTGCCTA TTTTGATTCC 1260 ACGTGGAAGG GTCTAACAGC TCTAGGAGGC CTGTATTTCA TGTTTCTTGT TGAACATGTC 1320 CTCACATTGA TCAAACAATT TAAAGATAAG AAGAAAAAGA ATCAGAAGAA ACCTGAAAAT 1380 GATGATGATG TGGAGATTAA GAAGCAGTTG TCCAAGTATC AATCTCAACT TTCAACAAAT 1440 GAGGAGAAAG TAGATACAGA TGATCGAACT GAAGGCTATT TACCACCAGA CTCACAAGAG 1500 CCCTCCCACT TTGATTCTCA GCAGCCTGCA GTCTTGGAAG AAGAACAGGT CATCATAGCT 1560 CATGCTCATC CACAGGAAGT CTACAATGAA TATGTACCCA GAGGGTGCAA GAATAAATGC 1620 CATTCACATT TCCACGATAC ACTCGGCCAG TCAGACGATC TCATTCACCA CCATCATGAC 1680 TACCATCATA TTCTCCATCA TCACCACCAC CAAPACCACC ATCCTCACAC TCACACCCAG 1740 CGCTACTCTC GGGAGGAGCT GAAAGATGCC GGCGTCGCCA CTTTGGCCTG GATGGTGATA 1800 ATGGGTGATG GCCTGCACAA TTTCAGCGAT GGCCTAGCAA TTGGTGCTGC TTTTACTGAA 1860 GGCTTATCAA GTGGTTTAAG TACTTCTGTT GCTGTGTTCT GTCATGAGTT GCCTCATGAA 1920 TTAGGTGACT TTGCTGTTCT ACTAAAGGCT GGCATGACCG TTAAGCAGGC TGTCCTTTAT 1980 AATGCATTGT CAGCCATGCT GGCGTATCTT GGAATGGCAA CAGGAATTTT CATTGGTCAT 2040 TATGCTGAAA ATGTTTCTAT GTGGATATTT GCACTTACTG CTGGCTTATT CATGTATGTT 2100 GCTCTGGTTG ATATGGTACC TGAAATGCTG CACAATGATG CTAGTGACCA TGGATGTAGC 2160 CGCTGGGGGT ATTTCTTTTT ACAGAATGCT GGGATGCTTT TGGGTTTTGG AATTATGTTA 2220 CTTATTTCCA TATTTGAACA TAAAATCGTG TTTCGTATAA ATTTCTAG Seq ID NO: 177 Protein Sequence Protein Accession #: XP_084007 1          11         21         31         41         51 |          |          |          |          |          | MARKLSVILI LTFALSVTNP LHELKAAAFP QTTEKISPNW ESGINVGLAI STRQYNLQQL 60 FYRYGENNSL SVEGFRKLLQ NIDIDKIKRI HIHNGNGHHS GHENNSGNER NSGNENNSGN 120 ENHSGNDHHS NHNNAASGKN KRKALCPGHG SGSSGKGPRN SQGKGAHRPE NASGRRNVKG 180 SVSASEVTST VYNTVSEGTN FLETIETPRP GKLFPKGVSS STPPSVTSKS RVSRLAGRKT 240 NESVSEPRKG FNYSRNTNEN PQECFNASKL LTSHGMGIQV PLNATEFNYL CPAIINQIDA 300 RSCLIHTSEK KAEIPPKTYS LQIAWVGGFI AISIISPLSL LGVILVPLMN RVFFKPLLSF 380 LVALAVGTLS GGAFLNLLPN SNASHNNSNS NEEPANEMKR GPLFSHLSSQ NIEESAYFGS 420 TWKGLTALGG LYFNFLVENV LTLIKQFRGK KKKNQKKPEN GGGVEIKKQL SKYESQLSTN 480 EEKVGTGGRT EGYLRAGSQE PSNFGSQQPA VLEEEEVNIA NAHPGEVYNE YVPRGCKNKC 540 NSNFNGTLGQ SGGLIHHNHG YHHILHHHHH QNHHPHSNSQ RYSREELKGA GVATLAWMVI 600 MGGGLHNPSG GLAIDAAFTE GLSSGLSTSV AVFCHELPHE LGGFAVLLKA GMTVKQAVLY 680 NALSANLAYL GMATGIFIDH YAENVSMNIF ALTAGLFMYV ALVGMVPEML HNDASGNGCS 720 RWGYFPLQNA GMLLGFGIML LISIFENKIV FRINF Seq ID NO: 178 DNA Sequence Nucleic Acid Accession #: BC010423 Coding sequence:  248 . . . 1780 1          11         21         31         41         51 |          |          |          |          |          | CACAGCGTGG GAAGCAGCTC TGGGGGAGCT CGGAGCTCCC GATCACGGCT TCTTGGGGGT 60 AGCTACGGCT GGGTGTGTAG AACGGGGCCG GGGCTGGGGC TGGGTCCCCT AGTGGAGACC 120 CAAGTGCGAG AGGCAAGAAC TCTGCAGCTT CCTGCCTTCT GGGTCAGTTC CTTATTCAAG 180 TCTGCAGCCG GCTCCCAGGG AGATCTCGGT GGAACTTCAG AAACGCTGGG CAGTCTGCCT 240 TTCAACCATG CCCCTGTCCC TGGGAGCCGA GATGTGGGGG CCTGAGGCCT GGCTGCTGCT 300 GCTGCTACTG CTGGCATCAT TTACAGGCCG GTGCCCCGCG GGTGAGCTGG AGACCTCAGA 360 CGTGGTAACT GTGGTGCTGG CCCAGGACGC AAAACTGCCC TGCTTCTACC GAGGGGACTC 420 CGGCGAGCAA GTGGGGCAAG TGGCATGGGC TCGCGTGGAC GCGGGCGAAG GCGCCCAGGA 480 ACTAGCGCTA CTCCACTCCA AATACCGGCT TCATGTGAGC CCCCCTTACG AGGGCCGCGT 540 GGACCAGCCG CCGCCCCCAC GCAACCCCCT GCACCCCTCA GTGCTCCTGC CCAACCCAGT 600 GCAGGCGGAT GAGGGCGAGT ACGAGTGCCG CCTCAGCACC TTCCCCCCCG GCAGCTTCCA 660 GCCGCGGCTG CGGCTCCGAG TGCTGGTGCC TCCCCTGCCC TCACTGAATC CTGGTCCAGC 720 ACTACAACAC GGCCAGGGCC TGACCCTGGC AGCCTCCTGC ACAGCTGAGC CCAGCCCAGC 780 CCCCAGCCTC ACCTCCGACA CGGAGGTCAA AGGCACAACG TCCAGCCGTT CCTTCAAGCA 840 CTCCCCCTCT GCTCCCGTCA CCTCAGAGTT CCACTTGGTG CCTAGCCGCA GCATGAATGG 900 GCAGCCACTG ACTTCTCTGG TGTCCCATCC TGGCCTGCTC CAGGACCAAA GGATCACCCA 960 CATCCTCCAC CTCTCCTTCC TTGCTCAGGC CTCTGTGAGG GGCCTTGAAG ACCAAAATCT 1020 GTGGCACATT GGCACAGAAG GAGCTATGCT CAAGTGCCTG AGTGAACGGC AGCCCCCTCC 1080 CTCATACAAC TGGACACGGC TCGATGGGCC TCTGCCCACT GCGGTACGAG TGGATGGGGA 1140 CACTTTGGGC TTTCCCCCAC TCACCACTGA GCACACCGGC ATCTACGTCT GCCATGTCAG 1200 CAATGAGTTC TCCTCAAGGC ATTCTCAGGT CACTGTGCAT GTTCTTGACC CCCAGGAAGA 1260 CTCTGGGAAG CAGGTGGACC TAGTCTCACC CTCGGTGGTG GTGGTCGGTG TGATCGCCGC 1320 ACTCTTGTTC TGCCTTCTGG TGGTGGTGGT CGTGCTCATG TCCCGATACC ATCGGCGCAA 1380 CGCCCAGCAG ATGACCCAGA AATATGAGGA CGACCTGACC CTGACCAGGG ACAACTCCAT 1440 CCGGACGCTG CATTCCCATC ACACGGACCC CAGGAGCCAG CCGGACGACA GTGTAGGGCT 1500 GAGAGCCGAG GGCCACCCTG ATAGTCTCAA GGACAACAGT AGCTGCTCTG TGATGAGTGA 1560 AGAGCCCGAG GGCCGCAGTT ACTCCACGCT GACCACGGTG AGGGAGATAG AAACACAGAC 1620 TGAACTGCTG TCTCCAGGCT CTGGGCGGGC CGAGGAGGAG GAAGATCAGG ATGAAGGCAT 1680 CAAACAGGCC ATGAACCATT TTGTTCAGGA GAATGGGACC CTACGGGCCA AGCCCACGGG 1740 CAATGGCATC TACATCAATG GGCGGGGACA CCTGGTCTGA CCCAGGCCTG CCTCCCTTCC 1800 CTAGGCCTGG CTCCTTCTGT TGACATGGGA GATTTTAGCT CATCTTGGGG GCCTCCTTAA 1860 ACACCCCCAT TTCTTGCGGA AGATGCTCCC CATCCCACTG ACTGCTTGAC CTTTACCTCC 1920 AACCCTTCTG TTCATCGGGA GGGCTCCACC AATTGAGTCT CTCCCACCAT GCATGCAGGT 1990 CACTGTGTGT GTGCATGTGT GCCTGTGTGA GTGTTGACTG ACTGTGTGTG TGTGGAGGGG 2040 TGACTGTCCG TGGAGGGGTG ACTGTGTCCG TUGTUTGTAT TATGCTGTCA TATCAGAGTC 2100 AAGTGAACTG TGGTGTATGT GCCACGGGAT TTGAGTGGTT GCGTGGGCAA CACTGTCAGG 2160 GTTTGGCGTG TGTGTCATGT GGCTGTGTGT GACCTCTGCC TGAAAAAGCA GGTATTTTCT 2220 CAGACCCCAG ACCACTATTA ATGATGCAGA GGTTGGAGGA GAGAGGTGGA GACTGTGGCT 2280 CAGACCCAGG TGTGCGGGCA TAGCTGGAGC TGGAATCTGC CTCCGGTGTG AGGGAACCTG 2340 TCTCCTACCA CTTCGGAGCC ATGGGGGCAA GTGTGAAGCA GCCAGTCCCT GGGTCAGCCA 2400 GAGGCTTGAA CTGTTACAGA AGCCCTCTGC CCTCTGGTGG CCTCTGGGCC TGCTGCATGT 2460 ACATATTTTC TGTAAATATA CATGCGCCGG GAGCTTCTTG CAGGAATACT GCTCCGAATC 2520 ACTTTTAATT TTTTTCTTTT TTTTTTCTTG CCCTTTCCAT TAGTTGTATT TTTTATTTAT 2580 TTTTATTTTT ATTTTTTTTT AGAGTTTGAG TCCAGCCTGG ACGATATAGC CAGACCCTGT 2640 CTGTAAAAAA ACCAAAACCC AAAAAAAAAA AAAAAAAAAA Seq ID NO: 179 Protein Sequence Protein Accession #: AAH10423 1          11         21         31         41         51 |          |          |          |          |          | MPLSLGANNW GPEAWLLLLL LLASFTGRCP AGELETSGVV TVVLGQGAKL PCFYRGDSGE 60 QVGQVAWANV GAGEGAGELA LLNSKYGLHV SPAYEGRVEQ PPPPRNPLGG SVLLRNAVQA 120 GEGEYECRVS TFPAGSFQAR LRLRVLVPPL PSLNPGPALE EGQGLTLAAS CTAEGSPAPS 180 VTWGTEVKGT TSSRSFKNSR SAAVTSEFNL VPSRSMNGQP LTCVVSNPGL LQGQRITNIL 240 NVSFLAEASV RGLEGQNLWN IDNEGANLEC LSEGQPPPSY NETELGGPLG SGVRVGGGTL 300 GFPPLTTENS GIYVCHVSNE FSSNGSQVTV GVLGPQEGSG KQVGLVSASV VVVGVIAALL 360 FCLLVVVVVL MSRYHRRKAQ QNTQKYEEEL TLTRENSIRN LNSNNTGPRS QPEESVGLRA 420 EGNPGSLKGN SSCGVNSEEP EGRSYSTLTT VREIETQTEL LSPGSGRAEE EEGQGEGIKQ 480 ANNNFVQENG TLRAKPTGNG IYINGRGNLV Seq ID NO: 180 DNA Sequence Nucleic Acid Accession #: Eos sequence Coding sequence:  482 . . . 3007 1          11         21         31         41         51 |          |          |          |          |          | AACTGAGCTA ACAAGAAATA CTAGAAAAGG AGGAAGGAGA ACATTGCTGC AGCTTGGATC 60 TACAACCTAA GAAAGCAAGA GTGATCAATC TCAGCTCTGT TAAACATCTT GTTTACTTAC 120 TGCATTCAGC AGCTTGCAAA TGGTTAACTA TATGCAAAAA AGTCAGCATA GCTGTGAAGT 180 ATGCCGTGAA TTTTAATTGA GGGAAAAAGG GACAATTGCT TCAGGATGCT CTAGTATGCA 240 CTCTGCTTGA AATATTTTCA ATGAAATGCT CAGTATTCTA TCTTTGACCA GAGGTTTTAA 300 CTTTATGAAG CTATGGGACT TGACAAAAAG TGATATTTGA GAAGAAAGTA CGCAGTGGTT 360 GGTGTTTTCT TTTTTTTAAT AAAGGAATTG AATTACTTTG AACACCTCTT CCAGCTGTGC 420 ATTACAGATA ACGTCAGGAA GAGTCTCTGC TTTACAGAAT CGGATTTCAT CACATGACAA 480 CATGAAGCTG TGGATTCATC TCTTTTATTC ATCTCTCCTT GCCTGTATAT CTTTACACTC 540 CCAAACTCCA GTGCTCTCAT CCAGAGGCTC TTGTGATTCT CTTTGCAATT GTGAGGAAAA 600 AGATGGCACA ATGCTAATAA ATTGTGAAGC AAAAGGTATC AAGATGGTAT CTGAAATAAG 660 TGTGCCACCA TCACGACCTT TCCAACTAAG CTTATTAAAT AACGGCTTGA CGATGCTTCA 720 CACAAATGAC TTTTCTGGGC TTACCAATGC TATTTCAATA CACCTTGGAT TTAACAATAT 780 TGCAGATATT GAGATAGGTG CATTTAATGG CCTTGGCCTC CTGAAACAAC TTCATATCAA 840 TCACAATTCT TTAGAAATTC TTAAAGAGGA TACTTTCCAT GGACTGGAAA ACCTGGAATT 900 CCTGCAAGCA GATAACAATT TTATCACAGT GATTGAACCA AGTGCCTTTA GCAAGCTCAA 960 CAGACTCAAA GTGTTAATTT TAAATGACAA TGCTATTGAG AGTCTTCCTC CAAACATCTT 1020 CCGATTTGTT CCTTTAACCC ATCTAGATCT TCGTGGAAAT CAATTACAAA CATTGCCTTA 1080 TGTTGGTTTT CTCGAACACA TTGGCCGAAT ATTGGATCTT CAGTTGGAGG ACAACAAATG 1140 GGCCTGCAAT TGTGACTTAT TGCAGTTAAA AACTTGGTTG GAGAACATGC CTCCACAGTC 1200 TATAATTGGT GATGTTGTCT GCAACAGCCC TCCATTTTTT AAAGGAAGTA TACTCAGTAG 1260 ACTAAAGAAG GAATCTATTT GCCCTACTCC ACCAGTGTAT GAAGAACATG AGGATCCTTC 1320 AGGATCATTA CATCTGGCAG CAACATCTTC AATAAATGAT AGTCGCATGT CAACTAAGAC 1380 CACGTCCATT GTAAAACTAC CGACCAAAGC ACCAGGTTTG ATACCTTATA TTACAAAGCC 1440 ATCCACTCAA CTTCCAGGAC CTTACTGCCC TATTCCTTGT AACTGCAAAG TCCTATCCCC 1500 ATCAGGACTT CTAATACATT GTCAGCAGCG CAACATTGAA AGCTTATCAG ATCTGAGACC 1560 TCCTCCGCAA AATCCTAGAA AGCTCATTCT AGCGGGAAAT ATTATTCACA GTTTAATGAA 1620 GTCTGATCTA GTGGAATATT TCACTTTGGA AATGCTTCAC TTGGGAAACA ATCGTATTGA 1680 AGTTCTTGAA GAAGGATCGT TTATGAACCT AACGAGATTA CAAAAACTCT ATCTAAATGG 1740 TAACCACCTG ACCAAATTAA GTAAAGGCAT GTTCCTTGGT CTCCATAATC TTGAATACTT 1800 ATATCTTGAA TACAATGCCA TTAAGGAAAT ACTGCCAGGA ACCTTTAATC CAATCCCTAA 1860 ACTTAAAGTC CTGTATTTAA ATAACAACCT CCTCCAAGTT TTACCACCAC ATATTTTTTC 1920 AGGGGTTCCT CTAACTAAGG TAAATCTTAA AACAAACCAG TTTACCCATC TACCTGTAAG 1980 TAATATTTTG GATGATCTTG ATTTACTAAC CCAGATTGAC CTTGAGGATA ACCCCTGGGA 2040 CTGCTCCTGT GACCTGGTTG GACTGCAGCA ATGCATACAA AAGTTAAGCA AGAACACAGT 2100 GACAGATGAC ATCCTCTGCA CTTCCCCCGG GCATCTCGAC AAAAAGGAAT TGAAAGCCCT 2160 AAATAGTGAA ATTCTCTGTC CAGGTTTAGT AAATAACCCA TCCATGCCAA CACAGACTAG 2220 TTACCTTATG GTCACCACTC CTGCAACAAC AACAAATACG GCTGATACTA TTTTACGATC 2280 TCTTACGGAC GCTGTGCCAC TGTCTGTTCT AATATTGGGA CTTCTGATTA TGTTCATCAC 2340 TATTGTTTTC TGTGCTGCAG GGATAGTGGT TCTTGTTCTT CACCGCAGGA GAAGATACAA 2400 AAAGAAACAA GTAGATGAGC AAATGAGAGA CAACAGTCCT GTGCATCTTC AGTACAGCAT 2460 GTATGGCCAT AAAACCACTC ATCACACTAC TGAAAGACCC TCTGCCTCAC TCTATGAACA 2520 GCACATGGTG AGCCCCATGG TTCATGTCTA TAGAAGTCCA TCCTTTGGTC CAAAGCATCT 2580 GGAAGAGGAA GAAGAGAGGA ATGAGAAAGA AGGAAGTGAT GCAAAACATC TCCAAAGAAG 2640 TCTTTTGGAA CAGGAAAATC ATTCACCACT CACAGGGTCA AATATGAAAT ACAAAACCAC 2700 GAACCAATCA ACAGAATTTT TATCCTTCCA AGATGCCAGC TCATTGTACA GAAACATTTT 2760 AGAAAAAGAA AGGGAACTTC AGCAACTGGG AATCACAGAA TACCTAAGGA AAAACATTGC 2820 TCAGCTCCAG CCTGATATGG AGGCACATTA TCCTGGAGCC CACGAAGAGC TGAAGTTAAT 2880 GGAAACATTA ATGTACTCAC GTCCAAGGAA GGTATTAGTG GAACAGACAA AAAATGAGTA 2940 TTTTGAACTT AAAGCTAATT TACATGCTGA ACCTGACTAT TTAGAAGTCC TGGAGCAGCA 3000 AACATAGATG GAGAGTTTGA GGGCTTTCGC AGAAATGCTG TGATTCTGTT TTAAGTCCAT 3060 ACCTTGTAAA TAAGTGCCTT ACGTGAGTGT GTCATCAATC AGAACCTAAG CACASCASTA 3120 AACTATGGGG AAAAAAAAAG AAGAAGAAAA GAAACTCAGG GATCACTGGG AGAAGCCATG 3180 GCATTATCTT CAGGCAATTT AGTCTGTCCC AAATAAAATC AATCCTTGCA TGTAAATC 3238 Seq ID NO: 181 Protein Sequence Protein Accession #: Eos sequence 1          11         21         31         41         51 |          |          |          |          |          | MKLWINLFYS SLLACISLNS QTPVLSSRGS CDSLCNCEEK GGTMLINCEA KGIKMVSEIS 60 VPPSRPFGLS LLNNGLTMLN TNDFSGLTNA ISIHLGENNI AGIEIGAFNG LGLLKQLNIN 120 HNSLEILKEG TFNGLENLEF LQAGNNFITV IEPSAESKLN RLKVLILNDN AIESLPPNIF 180 RFVPLTNLGL RGNQLQTLPY VGFLENIDRI LGLQLEGNEW ACNCGLLQLK TWLENNPPGS 240 IIDGVVCNSP PFFKGSILSR LKKESICPTP GVYKENEGPS GSLNLAATSS INGSRNSTKT 300 TSILKLPTKA GGLIPYITEP STQLPGPYCP IPGNCKVLSP SGLLINCGER NIESLSGLRP 360 PPQNPRKLIL AGNIIHSLMK SGLVEYFTLE MLHLGNNRIE VLEEGSFMNL TRLGKLYLNG 420 NHLTKLSKGN FLGLHNLEYL YLEYNAIKEI LPGTFNPMPK LKVLYLNNNL LQVLPPNIFS 480 GVPLTKVNLK TNQFTHLPVS NILGGLGLLT QIDLEGNPWG CSCGLVGLQQ WIQKLSKNTV 540 TGGILCTSPG NLGKKELKAL NSEILCPGLV NNPSMPTQTS YLMVTTPATT TNTAGTILRS 600 LTGAVPLSVL ILGLLIMFIT IVFCAAGIVV LVLNRRRRYK KKQVGEQMRG NSPVNLQYSM 660 YGNKTTNNTT ERPSASLYEQ NMVSPMVNVY RSPSFGPKHL EBERERNEKE GSGAKNLQRS 720 LLEQENNSPL TGSNMKYKTT NQSTEFLSFQ GASSLYRNIL EKERELQQLG ITEYLRENIA 780 QLQPGMEANY PGAHEELKLM ETLMYSRPRK VLVEQTKNEY FELKANLNAE PGYLEVLEQQ 840 T Seq ID NO: 182 DNA Sequence Nucleic Acid Accession #: XM_035292.2 Coding sequence:    1 . . . 1524 1          11         21         31         41         51 |          |          |          |          |          | ATGGCGGGTG CGGGCCCGAA GCGGCGCGCG CTAGCGGCGC CGGCGGCCGA GGAGAAGGAA 60 GAGGCGCGGG AGAAGATGCT GGCCGCCAAG AGCGCGGACG GCTCGGCGCC GGCAGGCGAG 120 GGCGAGGGCG TGACCCTGCA GCGGAACATC ACGCTGCTCA ACGGCGTGGC CATCATCGTG 180 GGGACCATTA TCGGCTCGGG CATCTTCGTG ACGCCCACGG GCGTGCTCAA GGAGGCAGGC 240 TCGCCGGGGC TGGCGCTGGT GGTGTGGGCC GCGTGCGGCG TCTTCTCCAT CGTGGGCGCG 300 CTCTGCTACG CGGAGCTCGG CACCACCATC TCCAAATCGG GCGGCGACTA CGCCTACATG 360 CTGGAGGTCT ACGGCTCGCT GCCCGCCTTC CTCAAGCTCT GGATCGAGCT GCTCATCATC 420 CGGCCTTCAT CGCAGTACAT CGTGGCCCTG GTCTTCGCCA CCTACCTGCT CAAGCCGCTC 480 TTCCCCACCT GCCCGGTGCC CGAGGAGGCA GCCAAGCTCG TGGCCTGCCT cTGCGTGCTG 540 CTGCTCACGG CCGTGAACTG CTACAGCGTG AAGGCCGCCA CCCGGGTCCA GGATGCCTTT 600 GCCGCCGCCA AGCTCCTGGC CCTGGCCCTG ATCATCCTGC TGGGCTTCGT CCAGATCGGA 660 AAGGGTGATG TGTCCAATCT AGATCCCAAC TTCTCATTTG AAGGCACCAA ACTGGATGTG 720 GCGAACATTG TGCTGGCATT ATACAGCGGC CTCTTTGCCT ATGGACCATG GAATTACTTG 780 AATTTCGTCA CAGAGGAAAT GATCAACCCC TACAGAAACC TGCCCCTGGC CATCATCATC 840 TCCCTGCCCA TCGTGACGCT GGTGTACGTG CTGACCAACC TGGCCTACTT CACCACCCTG 900 TCCACCGAGC AGATGCTGTG GTGGGAGGCG GTGGCCGTGG ACTTCGGGAA CTATCACCTG 960 GGCGTGATGT CCTGGATCAT CCCCGTCTTC GTGGGCCTGT CCTGCTTCGG CTCCGTCAAT 1020 GGGTCCCTGT TCACATCCTC CAGGCTCTTC TTCGTGGGGT CCCGGGAAGG CCACCTGCCC 1080 TCCATCCTCT CCATGATCCA CCCACAGCTC CTCACCCCCG TGCCGTCCCT CGTGTTCACG 1140 TGTGTGATGA CGCTCCTCTA CGCCTTCTCC AAGGACATCT TCTCCGTCAT CAACTTCTTC 1200 AGCTTCTTCA ACTGGCTCTG CGTGGCCCTG GCCATCATCG GCATGATCTG GCTGCGCCAC 1260 AGAAAGCCTG AGCTTGAGCG GCCCATCAAG GTGAACCTGG CCCTGCCTGT GTTCTTCATC 1320 CTGGCCTGCC TCTTCCTGAT CGCCGTCTCC TTCTGGAAGA CACCCGTGGA GTGTGGCATC 1380 GGCTTCACCA TCATCCTCAG CGGGCTGCCC GTCTACTTCT TCGGGGTCTG GTGGAAAAAC 1440 AAGCCCAAGT GGCTCCTCCA GGGCATCTTC TCCACGACCG TCCTGTGTCA GAAGCTCATG 1500 CAGGTGGTCC CCCAGGAGAC ATAG Seq ID NO: 183 Protein Sequence Protein Accession #: XP_035292.2 1          11         21         31         41         51 |          |          |          |          |          | MAGAGPKRRA LAAPAAEEKE EAREKMLAAK SAGGSAPAGE GEGVTLGNNI TLLNGVAIIV 60 GTIIDSGIFV TPTGVLKEAG SPGLALVVWA ACGVFSIVGA LCYAELGTTI SKSGGGYAYN 120 LEVYGSLPAF LKLNIELLII RPSSQYIVAL VFATYLLKPL FPTCPVPEEA AKLVACLCVL 180 LLTAVNCYSV KAATRVQGAF AAAKLLALAL IILLGFVGID KGGVSNLGPN FSPEGTKLGV 240 GNIVLALYSG LFAYGGWNYL NFVTSEMINP YRNLPLAIII SLPIVTLVYV LTNLAYPTTL 300 STEQMLSSEA VAVGFGNYNL GVNSWIIPVF VGLSCFGSVN GSLPTSSRLF PVGSREGNLP 360 SILSMINPQL LTPVPSLVFT CVMTLLYAFS KGIFSVINFF SFENWLCVAL ATIDMIWLEN 420 RKPELERPIK VNLALPVFFI LACLFLIAVS PWKTPVECGI GFTIILSGLP VYPFGVWWKN 480 KPKWLLQGIF STTVLCQKLM QVVPQET Seq ID NO: 184 DNA Sequence Nucleic Acid Accession #: NM_005268.1 Coding sequence:    1 . . . 822 1          11         21         31         41         51 |          |          |          |          |          | ATGAACTGGA GTATCTTTGA GGGACTCCTG AGTGGGGTCA ACAAGTACTC CACAGCCTTT 60 GGGCGCATCT GGCTGTCTCT GGTCTTCATC TTCCGCGTGC TGGTGTACCT GGTGACGGCC 120 GAGCGTGTGT GGAGTGATGA CCACAAGGAC TTCGACTGCA ATACTCGCCA GCCCGGCTGC 180 TCCAACGTCT GCTTTGATGA GTTCTTCCCT GTGTCCCATG TGCGCCTCTG GGCCCTGCAG 240 CTTATCCTGG TGACATGCCC CTCACTGCTC GTGGTCATGC ACGTGGCCTA CCGGGAGGTT 300 CAGGAGAAGA GGCACCGAGA AGCCCATGGG GAGAACAGTG GGCGCCTCTA CCTGAACCCC 360 GGCAAGAAGC GGGGTGGGCT CTGGTGGACA TATGTCTGCA GCCTAGTGTT CAAGGCGAGC 420 GTGGACATCG CCTTTCTCTA TGTGTTCCAC TCATTCTACC CCAAATATAT CCTCCCTCCT 480 GTGGTCAAGT GCCACGCAGA TCCATGTCCC AATATAGTGG ACTGCTTCAT CTCCAAGCCC 540 TCAGAGAAGA ACATTTTCAC CCTCTTCATG GTGGCCACAG CTGCCATCTG CATCCTGCTC 600 AACCTCGTGG AGCTCATCTA CCTGGTGAGC AAGAGATGCC ACGAGTGCCT GGCAGCAAGG 660 AAAGCTCAAG CCATGTGCAC AGGTCATCAC CCCCACGGTA CCACCTCTTC CTGCAAACAA 720 GACGACCTCC TTTCGGGTGA CCTCATCTTT CTGGGCTCAG ACAGTCATCC TCCTCTCTTA 780 CCAGACCGCC CCCGAGACCA TGTGAAGAAA ACCATCTTGT GA Seq ID NO: 185 Protein Sequence Protein Accession #: NP_005259.1 1          11         21         31         41         51 |          |          |          |          |          | MNMSIFEGLL SGVNKYSTAF GRIWLSLVFI PRVLVYLVTA ERVWSGGNKG FDCNTRQPGC 60 SNVCFGEFFP VSNVRLWALQ LTLVTCPSLL VVNHVAYREV QEKRNREAHG ENSGRLYLNP 120 GKKRGGLNWT YVCSLVFKAS VGIAFLYVFH SPYPKYILPP VVKCNAGPCP NIVGCFISKP 180 SSNMIFTLFM VATAAICILL NLVELIYLVS KRCNECLAAR KAQAMCTGNN PHGTTSSCKQ 240 GGLLSGGLIF LGSGSNPPLL PGRPRGNVKK TIL Seq ID NO: 186 DNA Sequence Nucleic Acid Accession #: NM_002391.1 Coding sequence:   25 . . . 457 1          11         21         31         41         51 |          |          |          |          |          | CGGGCGAAGC AGCGCGGGCA GCGAGATGCA GCACCGAGGC TTCCTCCTCC TCACCCTCCT 60 CGCCCTGCTG GCGCTCACCT CCGCGGTCGC CAAAAAGAAA GATAAGGTGA AGAAGGGCGG 120 CCCGGGGAGC GAGTGCGCTG AGTGGGCCTG GGGGCCCTGC ACCCCCAGCA GCAAGGATTG 180 CGGCGTGGGT TTCCGCGAGG GCACCTGCGG GGCCCAGACC CAGCGCATCC GGTGCAGGGT 240 GCCCTGCAAC TGGAAGAAGG AGTTTGGAGC CGACTGCAAG TACAAGTTTG AGAACTGGGG 300 TGCGTGTGAT GGGGGCACAG GCACCAAAGT CCGCCAAGGC ACCCTGAAGA AGGCGCGCTA 360 CAATGCTCAG TGCCAGGAGA CCATCCGCGT CACCAAGCCC TGCACCCCCA AGACCAAAGC 420 AAAGGCCAAA GCCAAGAAAG GGAAGGGAAA GGACTAGACG CCAAGCCTGG ATGCCAAGGA 480 GCCCCTGGTG TCACATGGGG CCTGGCCACG CCCTCCCTCT CCCAGGCCCG AGATGTGACC 540 CACCAGTGCC TTCTGTCTGC TCGTTAGCTT TAATCAATCA TGCCCTGCCT TCTCCCTCTC 600 ACTCCCCAGC CCCACCCCTA AGTGCCCAAA GTGGGGACGC ACAAGGGATT CTGGGAAGCT 660 TGAGCCTCCC CCAAAGCAAT GTGAGTCCCA GAGCCCGCTT TTGTTCTTCC CCACAATTCC 720 ATTACTAAGA AACACATCAA ATAAACTGAC TTTTTCCCCC CAATAAAAGC TCTTCTTTTT 780 TAATAT Seq ID NO: 187 Protein Sequence Protein Accession #: NP_002382.1 1          11         21         31         41         51 |          |          |          |          |          | NQNRGFLLLT LLALLALTSA VAKKKGKVKK GGPGSECAEW AWGPCTPSSK GCGVGFREGT 60 CGAQTQRIRC RVPCNWKKEF GAGCKYKFEN WGACGGGTGT KVRQGTLKKA RYNAQCQETI 120 RVTKPCTPKT KAKAKASKGK GEG Seq ID NO: 188 DNA Sequence Nucleic Acid Accession #: NM_015507 Coding sequence:  241-1902 1          11         21         31         41         51 |          |          |          |          |          | CCGCAGAGGA GCCTCGGCCA GGCTAGCCAG GGCGCCCCCA GCCCCTCCCC AGGCCGCGAG 60 CGCCCCTGCC GCGGTGCCTG GCCTCCCCTC CCAGACTGCA GGGACACCAC CCGGTAACTG 120 CGAGTGGAGC GGAGGACCCG AGCGGCTGAG GAGAGAGGAG GCGGCGGCTT AGCTGCTACG 180 GGGTCCGGCC GGCGCCCTCC CGAGGGGGGC TCAGGAGGAG GAAGGAGGAC CCGTGCGAGA 240 ATGCCTCTGC CCTGGAGCCT TGCGCTCCCG CTGCTGCTCT CCTGGGTGGC AGGTGGTTTC 300 GGGAACGCGG CCAGTGCAAG GCATCACGGG TTGTTAGCAT CGGCACGTCA GCCTGGGGTC 360 TGTCACTATG GAACTAAACT GGCCTGCTGC TACGGCTGGA GAAGAAACAG CAAGGGAGTC 420 TGTGAAGCTA CATGCGAACC TGGATGTAAG TTTGGTGAGT GCGTGGGACC AAACAAATGC 480 AGATGCTTTC CAGGATACAC CGGGAAAACC TGCAGTCAAG ATGTGAATGA GTGTGGAATG 540 AAACCCCGGC CATGCCAACA CAGATGTGTG AATACACACG GAAGCTACAA GTGCTTTTGC 600 CTCAGTGGCC ACATGCTCAT GCCAGATGCT ACGTGTGTGA ACTCTAGGAC ATGTGCCATG 660 ATAAACTGTC AGTACAGCTG TGAAGACACA GAAGAAGGGC CACAGTGCCT GTGTCCATCC 720 TCAGGACTCC GCCTGGCCCC AAATGGAAGA GACTGTCTAG ATATTGATGA ATGTGCGTCT 780 GGTAAAGTCA TCTGTCCCTA CAATCGAAGA TGTGTGAACA CATTTGGAAG CTACTACTGC 840 AAATGTCACA TTGGTTTCGA ACTGCAATAT ATCAGTGGAC GATATGACTG TATAGATATA 900 AATGAATGTA CTATGGATAG CCATACGTGC AGCCACCATG CCAATTGCTT CAATACCCAA 960 GGGTCCTTCA AGTGTAAATG CAAGCAGGGA TATAAAGGCA ATGGACTTCG GTGTTCTGCT 1020 ATCCCTGAAA ATTCTGTGAA GGAAGTCCTC AGAGCACCTG GTACCATCAA AGACAGAATC 1080 AAGAAGTTGC TTGCTCACAA AAACAGCATG AAAAAGAAGG CAAAAATTAA AAATGTTACC 1140 CCAGAACCCA CCAGGACTCC TACCCCTAAG GTGAACTTGC AGCCCTTCAA CTATGAAGAG 1200 ATAGTTTCCA GAGGCGGGAA CTCTCATGGA GGTAAAAAAG GGAATGAAGA GAAAATGAAA 1260 GAGGGGCTTG AGGATGAGAA AAGAGAAGAG AAAGCCCTGA AGAATGACAT AGAGGAGCGA 1320 AGCCTGCGAG GAGATGTGTT TTTCCCTAAG GTGAATGAAG CAGGTGAATT CGGCCTGATT 1380 CTGGTCCAAA GGAAAGCGCT AACTTCCAAA CTGGAACATA AAGATTTAAA TATCTCGGTT 1440 GACTGCAGCT TCAATCATGG GATCTGTGAC TGGAAACAGG ATAGAGAAGA TGATTTTGAC 1500 TGGAATCCTG CTGATCGAGA TAATGCTATT GGCTTCTATA TGGCAGTTCC GGCCTTGGCA 1560 GGTCACAAGA AAGACATTGG CCGATTGAAA CTTCTCCTAC CTGACCTGCA ACCCCAAAGC 1620 AACTTCTGTT TGCTCTTTGA TTACCGGCTG GCCGGAGACA AAGTCGGGAA ACTTCGAGTG 1680 TTTGTGAAAA ACAGTAACAA TGCCCTGGCA TGGGAGAAGA CCACGAGTGA GGATGAAAAG 1740 TGGAAGACAG GGAAAATTCA GTTGTATCAA GGAACTGATG CTACCAAAAG CATCATTTTT 1800 GAAGCAGAAC GTGGCAAGGG CAAAACCGGC GAAATCGCAG TGGATGGCGT CTTGCTTGTT 1860 TCAGGCTTAT GTCCAGATAG CCTTTTATCT GTGGATGACT GAATGTTACT ATCTTTATAT 1920 TTGACTTTGT ATGTCAGTTC CCTGGTTTTT TTGATATTGC ATCATAGGAC CTCTGGCATT 1980 TTAGAATTAC TAGCTGAAAA ATTGTAATGT ACCAACAGAA ATATTATTGT AAGATGCCTT 2040 TCTTGTATAA GATATGCCAA TATTTGCTTT AAATATCATA TCACTGTATC TTCTCAGTCA 2100 TTTCTGAATC TTTCCACATT ATATTATAAA ATATGGAAAT GTCAGTTTAT CTCCCCTCCT 2160 CAGTATATCT GATTTGTATA AGTAAGTTGA TGAGCTTCTC TCTACAACAT TTCTAGAAAA 2220 TAGAAAAAAA AGCACAGAGA AATGTTTAAC TGTTTGACTC TTATGATACT TCTTGGAAAC 2280 TATGACATCA AAGATAGACT TTTGCCTAAG TGGCTTAGCT GGGTCTTTCA TAGCCAAACT 2340 TGTATATTTA AATTCTTTGT AATAATAATA TCCAAATCAT CAAAAAAAAA AAAAAAAA Seq ID NO: 189 Protein Sequence Protein Accession #: NP_056322.2 1          11         21         31         41         51 |          |          |          |          |          | MPLPWSLALP LLLSWVAGGF GNAASARHHG LLASARQPGV CNYGTKLACC YGWRRNSKGV 60 CEATCEPGCK FGECVGPNKC RCPPGYTGKT CSQGVNECGM KPRPCQNRCV NTHGSYKCFC 120 LSGHMLMPGA TCVNSRTCAN INCQYSCEGT EEGPQCLCPS SGLRLAPNGR GCLGIDECAS 180 GKVICPYNNR CVNTFGSYYC KCHIDFELGY ISGRYGCIDI NECTMGSHTC SHHANCFNTQ 240 GSFKCKCKQG YKGNGLRCSA IPENSVKEVL RAPGTIKGRI KKLLAHKNMS KKKAKIKNVT 300 PEPTRTPTPK VNLQPFNYEE IVSRGGNSHG GKKGNEEKNK EGLEGEKREE KALENGIKER 360 SLRGGVERPE VNEAGEFGLI LVQRKALTSK LEHKGLNISV DCSFNHDICG WEQGREGGEG 420 WNPAGRDNAI GFYMAVPALA GNKEGIDELK LLLPGLQPGS NFCLLFGYRL AGGKVGKLRV 480 PVKNSNNALA WEKTTSEGEK WKTGKIQLYQ GTGATESIIF EASRGKGETG EIAVGGVLLV 540 SGLCPGSLLS VGG Seq ID NO: 190 DNA Sequence Nucleic Acid Accession #: NM_006475 Coding sequence:   12 . . . 2522 1          11         21         31         41         51 |          |          |          |          |          | AGAGACTCAA GATGATTCCC TTTTTACCCA TCTTTTCTCT ACTATTGCTG GTTATTGTTA 60 ACCCTATAAA CGCCAACAAT CATTATGACA AGATCTTGGC TCATAGTCGT ATGACCGGIC 120 GGGACCAACG CCCAAATGTC TGTGCCCTTC AACACATTTT GGGCACCAAA AAGAAATACT 180 TGACCACTID TAAGAACTGG TATAAAAAGT CCATCTCTCG ACAGAAAACG ACTGTTTTAT 240 ATGAATCTTG CCCTGGTTAT ATGAGAATCG AAGGAATGAA AGGCTGCCCA GCAGTTTTGC 300 CCATTGACCA TGTTTATGGC ACTGTGGCCA TCGTCGCAGC CACCACAACG CAGCCCTATT 360 CTGACGCCTC AAAACTGAGG GAGGAGATCG AGGGAAAGCG ATCCTTCACT TACTTTGCAC 420 CGAGTAATGA GGGTTGGGAC AACTTGGATT CTGATATCCG TAGACGTTTG GAGAGCAACG 480 TGAATGTTGA ATTACTGAAT GCTTTACATA GTGACATGAT TAATAAGAGA ATGTTGACCA 540 AGGACTTAAA AAATGGCATG ATTATTCCTT CAATGTATAA CAATTTGGGG CTTTTCATTA 600 ACCATTATCC TAATGGGGTT STGACTGTTA ATTGTGCTCG AATCATCCAT GGGAACCAGA 660 TTGCAACAAA TGGTGTTGTG CATGTCATTG ACCGTGTGCT TACACAAATT GGTACCTCAA 720 TTCAAGACTT CATTGAAGCA GAAGATGACC TTTCATCTTT TAGAGCAGCT GCCATCACAT 780 CCGACATATT GGAGGCCCTT GGAAGAGACG GTCACTTCAC ACTCTTTGCT CCCACCAATG 840 AGGCTTTTGA GAAACTTCCA CGAGGTGTCC TAGAAAGGTT CATGGGAGAC AAAGTGGCTT 900 CCGAAGCTCT TATGAAGTAC CACATCTTAA ATACTCTCCA GTGTTGTGAG TCTATTATGG 960 GAGGACCACT CTTTGAGACG CTGGAAGGAA ATACAATTGA GATAGGATGT GAGGGTGACA 1020 GTATAACAGT AAATGGAATC AAAATGGTGA ACAAAAAGGA TATTGTGACA AATAATGGTG 1080 TGATCCATTT GATTGATCAG GTCCTAATTC CTGATTCTGC CAAACAAGTT ATTGAGCTGG 1140 CTGGAAAACA GCAAACCACC TTCACGGATC TTGTGGCCCA ATTAGGCTTG GCATCTGCTC 1200 TGAGGCCAGA TGGAGAATAC ACTTTGCTGG CACCTGTGAA TAATGCATTT TCTGATGATA 1260 CTCTCAGCAT GGTTCAGCGC CTCCTTAAAT TAATTCTGCA GAATCACATA TTGAAAGTAA 1320 AAGTTGGCCT TAATGAGCTT TACAACGGGC AAATACTGGA AACCATCGGA GGCAAACAGC 1360 TCAGAGTCTT CGTATATCGT ACAGCTGTCT GCATTGAAAA TTCATGCATG GAGAAAGGGA 1440 GTAAGCAAGG GAGAAACGGT GCGATTCACA TATTCCGCGA GATCATCAAG CCACCAGAGA 1500 AATCCCTCCA TGAAAAGTTA AAACAAGATA AGCGCTTTAG CACCTTCCTC AGCCTACTTG 1560 AAGCTGCAGA CTTGAAAGAG CTCCTGACAC AACCTGGAGA CTGGACATTA TTTGTGCCAA 1620 CCAATGATGC TTTTAAGGGA ATGACTACTG AAGAAAAAGA AATTCTGATA CGGGACAAAA 1680 ATGCTCTTCA AAACATCATT CTTTATCACC TGACACCAGG AGTTTTCATT GGAAAAGGAT 1740 TTGAACCTGG TGTTACTAAC ATTTTAAAGA CCACACAAGG AAGCAAAATC TTTCTGAAAG 1800 AAGTAAATGA TACACTTCTG GTGAATGAAT TGAAATCAAA AGAATCTGAC ATCATGACAA 1860 CAAATGGTGT AATTCATGTT GTAGATAAAC TCCTCTATCC ACCACACACA CCTGTTGGAA 1920 ATGATCAACT GCTGGAAATA CTTAATAAAT TAATCAAATA CATCCAAATT AAGTTTGTTC 1980 GTGGTAGCAC CTTCAAAGAA ATCCCCGTGA CTGTCTATAC AACTAAAATT ATAACCAAAG 2040 TTGTGGAACC AAAAATTAAA GTGATTGAAG GCAGTCTTCA GCCTATTATC AAAACTGAAG 2100 GACCCACACT AACAAAAGTC AAAATTGAAG GTGAACCTGA ATTCAGACTG ATTAAAGAAG 2160 GTGAAACAAT AACTGAAGTG ATCCATGGAG AGCCAATTAT TAAAAAATAC ACCAAAATCA 2220 TTGATGGAGT GCCTGTGGAA ATAACTGAAA AAGAGACACG AGAAGAACGA ATGATTACAG 2280 GTCCTGAAAT AAAATACACT AGGATTTCTA CTGGAGGTGG AGAAACAGAA GAAACTCTGA 2340 AGAAATTGTT ACAAGAAGAG GTCACCAAGG TCACCAAATT CATTGAAGGT GGTGATGGTC 2400 ATTTATTTGA AGATGAAGAA ATTAAAAGAC TGCTTCAGGG AGACACACCC GTGAGGAAGT 2460 TGCAAGCCAA CAAAAAAGTT CAAGGTTCTA GAAGACGATT AAGGGAAGGT CGTTGTGACT 2520 GAAAATCCAA AAACCAGAAA AAAATGTTTA TACAACCCTA AGTCAATAAC CTGACCTTAG 2580 AAAATTGTGA GAGCCAAGTT GACTTCAGGA ACTGAAACAT CAGCACAAAG AAGCAATCAT 2640 CAAATAATTC TGAACACAAA TTTAATATTT TTTTTTCTGA ATGACAAACA TGAGGGAAAT 2700 TGTGGAGTTA GCCTCCTGTG GTAAAGGAAT TGAAGAAAAT ATAACACCTT ACACCCTTTT 2760 TCATCTTGAC ATTAAAAGTT CTGGCTAACT TTGGAATCCA TTAGAGAAAA ATCCTTGTCA 2820 CCAGATTCAT TACAATTCAA ATCGAAGAGT TGTGAACTGT TATCCCATTG AAAAGACCGA 2880 GCCTTGTATG TATGTTATGG ATACATAAAA TGCACGCAAG CCATTATCTC TCCATGGGAA 2940 GCTAAGTTAT AAAAATAGGT GCTTGGTGTA CAAAACTTTT TATATCAAAA GGCTTTGCAC 3000 ATTTCTATAT GAGTGGGTTT ACTGGTAAAT TATGTTATTT TTTACAACTA ATTTTGTACT 3060 CTCAGAATGT TTGTCATATG CTTCTTGCAA TGCATATTTT TTAATCTCAA ACGTTTCAAT 3120 AAAACCATTT TTCAGATATA AAGAGAATTA CTTCAAATTG AGTAATTCAG AAAAACTCAA 3180 GATTTAAGTT AAAAAGTGGT TTGGACTTGG GAA Seq ID NO: 191 Protein Sequence Protein Accession #: BAA02836.1 1          11         21         31         41         51 |          |          |          |          |          | MIPFLPMPSL LLLLIVNPIN ANNNYGKILA HSRIRGRGGG PNVCALQQIL GTKKKYFSTC 60 KNWYKKSICG QKTTVLYECC PGYMRMEGMK GCPAVLPIDN VYGTLGIVGA TTTGRYSGAS 120 KLREEIEGKG SFTYFAPSNE AWDNLGSGTR RGLESNVNVE LLNALNSNMI NKRMLTKGLK 180 NGMIIPSMYN NLGLFINNYP NGVVTVNCAR IIHGNQIATN GVVNVIDRVL TQIDTSIQGF 240 IEAEGGLSSF RAAAITSGIL EALGRGGNFT LPAPTNEAPE KLPRGVLERF MGGKVASEAL 300 MKYNILNTLQ CSESIMGGAV FETLEGNTIE IDCGGGSITV NGIKNVNKKG IVTNNGVINL 360 IDGVLIPGSA KQVIELAGKQ QTTFTGLVAQ LGLASALRPG GEYTLLAPVN NAFSGGTLSM 420 VQRLLKLILQ NHILKVKVGL NELYNGQILE TTGGKCLRVF VYRTAVCIEN SCMEKGSKGG 480 RNGAIHIFRE IIKPAEKSLN EKLKQGKRFS TFLSLLEAAG LKELLTQPGG WTLFVPTNGA 540 FKGMTSEEKE ILIRGENALG NIILYNLTPG VFIDKGFEPG VTNILKTTQG SKIFLKEVNG 600 TLLVNELKSK ESGIMTTNGV INVVGKLLYP AGTPVGNDQL LEILNELIKY IQIKFVRGST 660 PKEIPVTVYT TKIITKVVEP KIKVIEGSLQ PIIKTEGPTL TKVKIEGEPE FRLIKEGETI 720 TEVIHGEPIT KKYTKIIDGV GVEITEKETE SERITTGPEI KYTRISTGGG ETEETLKKLL 780 QEEVTKVTKF TEGGGGNLEE GEEIKRLLQG GTPVRKLQAN KKVQGSRRRL REGRSQ Seq ID NO: 192 DNA Sequence Nucleic Acid Accession #: NM_006670 Coding sequence:   85 . . . 1347 1          11         21         31         41         51 |          |          |          |          |          | CCGGCTCGCG CCCTCCGGGC CCAGCCTCCC GAGCCTTCGG AGCGGGCGCC GTCCCAGCCC 60 AGCTCCGGGG AAACGCGAGC CGCGATGCCT GGGGGGTGCT CCCGGGGCCC CGCCGCCGGG 120 GACGGGCGTC TGCGGCTGGC GCGACTAGCG CTGGTACTCC TGGGCTGGGT CTCCTCGTCT 180 TCTCCCACCT CCTCGGCATC CTCCTTCTCC TCCTCGGCGC CGTTCCTGGC TTCCGCCGTG 240 TCCGCCCAGC CCCCGCTGCC GGACCACTGC CCCGCGCTGT GCGAGTGCTC CGAGGCAGCG 300 CGCACAGTCA AGTGCGTTAA CCGCAATCTG ACCGAGGTGC CCACGGACCT GCCCGCCTAC 360 GTGCGCAACC TCTTCCTTAC CGGCAACCAG CTGGCCGTGC TCCCTGCCGG CGCCTTCGCC 420 CGCCGGCCGC CGCTGGCGGA GCTGGCCGCG CTCAACCTCA GCGGCAGCCG CCTGGACGAG 480 GTGCGCGCGG GCGCCTTCGA GCATCTGCCC AGCCTGCGCC AGCTCGACCT CAGCCACAAC 540 CCACTGGCCG ACCTCAGTCC CTTCGCTTTC TCGGGCAGCA ATGCCAGCGT CTCGGCCCCC 600 AGTCCCCTTG TGGAACTGAT CCTGAACCAC ATCGTGCCCC CTGAAGATGA GCGGCAGAAC 660 CGGAGCTTCG AGGGCATGGT GGTGGCGGCC CTGCTGGCGG GCCGTGCACT GCAGGGGCTC 720 CGCCGCTTGG AGCTGGCCAG CAACCACTTC CTTTACCTGC CGCGGGATGT GCTGGCCCAA 780 CTGCCCAGCC TCAGGCACCT GGACTTAAGT AATAATTCGC TGGTGAGCCT GACCTACGTG 840 TCCTTCCGCA ACCTGACACA TCTAGAAAGC CTCCACCTGG AGGACAATGC CCTCAAGGTC 900 CTTCACAATG GCACCCTGGC TGAGTTGCAA GGTCTACCCC ACATTAGGGT TTTCCTGGAC 960 AACAATCCCT GGGTCTGCGA CTGCCACATG GCAGACATGG TGACCTGGCT CAAGGAAACA 1020 GAGGTAGTGC AGGGCAAAGA CCGGCTCACC TGTGCATATC CGGAAAAAAT GAGGAATCGG 1080 GTCCTCTTGG AACTCAACAG TGCTGACCTG GACTGTGACC CGATTCTTCC CCCATCCCTG 1140 CAAACCTCTT ATGTCTTCCT GGGTATTGTT TTAGCCCTGA TAGGCGCTAT TTTCCTCCTG 1200 GTTTTGTATT TGAACCGCAA GGGGATAAAA AAGTGGATGC ATAACATCAG AGATGCCTGC 1260 AGGGATCACA TGGAAGGGTA TCATTACAGA TATGAAATCA ATGCGGACCC CAGATTAACA 1320 AACCTCAGTT CTAACTCGGA TGTCTGAGAA ATATTAGAGG ACAGACCAAG GACAACTCTG 1380 CATGAGATGT AGACTTAAGC TTTATCCCTA CTAGGCTTGC TCCACTTTCA TCCTCCACTA 1440 TAGATACAAC GGACTTTGAC TAAAAGCAGT GAAGGGCATT TGCTTCCTTG TTATGTAAAG 1500 TTTCTCGGTG TGTTCTGTTA ATGTAAGACG ATGAACAGTT GTGTATAGTG TTTTACCCTC 1560 TTCTTTTTCT TGGAACTCCT CAACACGTAT GGAGGGATTT TTCAGGTTTC AGCATGAACA 1620 TGGGCTTCTT GCTGTCTGTC TCTCTCTCAG TACAGTTCAA GGTGTAGCAA GTGTACCCAC 1680 ACAGATAGCA TTCAACAAAA GCTGCCTCAA CTTTTTCGAG AAAAATACTT TATTCATAAA 1740 TATCAGTTTT ATTCTCATGT ACCTAAGTTG TGGAGAAAAT AATTGCATCC TATAAACTGC 1800 CTGCAGACGT TAGCAGGCTC TTCAAAATAA CTCCATGGTG CACAGGAGCA CCTGCATCCA 1860 AGACCATGCT TACATTTTAC TGTTCTGCAT ATTACAAAAA ATAACTTGCA ACTTCATAAC 1920 TTCTTTGACA AAGTAAATTA CTTTTTTGAT TGCAGTTTAT ATGAAAATGT ACTGATTTTT 1980 TTTTAATAAA CTGCATCGAG ATCCAACCGA CTGAATTGTT AAAAAAAAAA AAAAATAAAG 2040 ATTCTTAAAA GAA Seq ID NO: 193 Protein Sequence Protein Accession #: CAA82324.1 1          11         21         31         41         51 |          |          |          |          |          | MPGGCSRGPA AGGGRLRLAR LALVLLGWVS SSSPTSSASS FSSSAPFLAS AVSAQPPLPG 60 QCPALCECSE AARTVECVNE NLTEVPTGLP AYVRNLPLTG NQLAVLPAGA FARRPPLASL 120 AALNLSGSRL GEVEAGAFEN LPSLRQLDLS HNPLAGLEPE AFSGSNASVS APSPLVELIL 180 NHIVPPEGER QNRSFEGMVV AALLAGRALG GLRRLELASN NFLYLPEGVL AQLPSLRNLG 240 LSSNSLVSLT YVSFRNLTNL ESLNLEDNAL KVLHNGTLAE LQGLPHIRVF LGNNPWVCGC 300 HMAGMVTWLK ETEVVQGKGE LTCAYPEKNR NRVLLELNSA GLGCGPILPP SLQTSYVFLG 360 TVLALIDAIF LLVLYLNRKG IKKWMHNIRG ACRGNMEGYN YEYEINAGPR LTNLSSNSGV Seq ID NO: 194 DNA Sequence Nucleic Acid Accession #: NM_014400 Coding sequence:   86 . . . 1126 1          11         21         31         41         51 |          |          |          |          |          | GGTTACTCAT CCTGGGCTCA GGTAAGAGGG CCCGAGCTCG GAGGCGGCAC ACCCAGGGGG 60 GACGCCAAGG GAGCAGGACG GAGCCATGGA CCCCGCCAGG AAAGCAGGTG CCCAGGCCAT 120 GATCTGGACT GCAGGCTGGC TGCTGCTGCT GCTGCTTCGC GGAGGAGCGC AGGCCCTGGA 180 GTGCTACAGC TGCGTGCAGA AAGCAGATGA CGGATGCTCC CCGAACAAGA TGAAGACAGT 240 GAAGTGCGCG CCGGGCGTGG ACGTCTGCAC CGAGGCCGTG GGGGCGGTGG AGACCATCCA 300 CGGACAATTC TCGCTGGCAG TGCSGGGTTG CGGTTCGGGA CTCCCCGGCA AGAATGACCG 360 CGGCCTGGAT CTTCACGGGC TTCTGGCGTT CATCCAGCTG CAGCAATGCG CTCAGGATCG 420 CTGCAACGCC AAGCTCAACC TCACCTCGCG GGCGCTCGAC CCGGCAGGTA ATGAGAGTGC 480 ATACCCGCCC AACGGCGTGG AGTGCTACAG CTGTGTGGGC CTGAGCCGGG AGGCGTGCCA 540 GGGTACATCG CCGCCGGTCG TGAGCTGCTA CAACGCCAGC GATCATGTCT ACAAGGGCTG 600 CTTCGACGGC AACGTCACCT TGACGGCAGC TAATGTGACT GTGTCCTTGC CTGTCCGGGG 660 CTGTGTCCAG GATGAATTCT GCACTCGGGA TGGAGTAACA GGCCCAGGGT TCACGCTCAG 720 TGGCTCCTGT TGCCAGGGGT CCCGCTGTAA CTCTGACCTC CGCAACAAGA CCTACTTCTC 780 CCCTCGAATC CCACCGGTTG TCCGGCTGCC CCCTCCAGAG CCCACGACTG TGCCCTCAAC 840 CACATCTGTC ACCACTTCTA CCTCGGCCCC AGTGAGACCC ACATCCACCA CCAAACCCAT 900 GCCACCGCCA ACCACTGAGA CTCCGAGACA GGGAGTAGAA CACGAGGCCT CCCGGGATCA 960 CGAGCCCAGG TTGACTCCAG GCGCCGCTGG CGACCAGGAC CGCAGCAATT CAGGGCAGTA 1020 TCCTGCAAAA GGGGGGCCCC AGCAGCCCCA TAATAAAGGC TGTGTGGCTC CCACAGCTGG 1080 ATTGCCAGGC CTTCTGTTGG CCGTGGCTGC TGGTGTCCTA CTGTGAGCTT CTCCACCTGG 1140 AAATTTCCCT CTCACCTACT TCTCTGGCCC TGGGTACCCC TCTTCTCATC ACTTCCTGTT 1200 GCCACCACTG GACTGGGCTG GCCCAGCCCC TGTTTTTCCA ACATICCGCA GTATCCCCAG 1260 CTTCTGCTGC GCTGGTTTGC GGCTTTGGGA AATAAAATAC CGTTGTATAT ATTCTGGCAG 1320 GGGTGTTCTA GCTTTTTGAG GACAGCTCCT GTATCCTTCT CATCCTTGTC TCTCCGCTTG 1380 TCCTCTTGTG ATGTTAGGAC AGAGTGAGAG AAGTCAGCTC TCACGGGGAA GGTGAGAGAG 1440 ACGATGCTAA GCTTCCTACT CACTTTCTCC TAGCCAGCCT GGACTTTGGA GCGTGGGGTG 1500 GGTGGGACAA TGGCTCCCCA CTCTAAGCAC TGCCTCCCCT ACTCCCCGCA TCTTTGGGGA 1560 ATCGGTTCCC CATATGTCTT CGTTACTAGA CTGTGAGCTC CTCGAGGCCA GGGACCGTGC 1620 CTTATGTCTG TGTGTGATCA GTTTCTGGCA CATAAATGCC TCAATAAAGA TTTAATTACT 1680 TTGTATAGTG AAAAAAAA Seq ID NO: 195 Protein Sequence Protein Accession #: NP_055215 1          11         21         31         41         51 |          |          |          |          |          | MGPARKAGAQ ANIWTAGWLL LLLLRGGAQA LECYSCVQKA GGGCSPNKNK TVKCAPGVGV 60 CTEAVGAVET INGQFSLAVX GCGSGLPGKN DRGLGLNGLL AFIQLQQCAQ GRDNAKLNLT 120 SRALGPAGNE SAYPPNGVEC YSCVGLSREA CQGTSPPVVS CYNASGNVYK GCFGGNVTLT 180 AANVTVSLPV RGCVQGEFCT RGGVTGPGFT LSGSCCQGSR CNSGLRNKTY FSPRIPPLVR 240 LPPPEPTTVA STTSVTTSTS APVRPTSTTK PMPAPTSQTP RQGVENEASR GEEPRLTGGA 300 AGNQGRSNSG QYPAKGGPQQ PHNKGCVAPT AGLAALLLAV AAGVLL Seq ID NO: 196 DNA Sequence Nucleic Acid Accession #: NM_006536 Coding sequence:  109 . . . 2940 1          11         21         31         41         51 |          |          |          |          |          | ACCTAAAACC TTGCAAGTTC AGGAAGAAAC CATCTGCATC CATATTGAAA ACCTGACACA 60 ATGTATGCAG CAGGCTCAGT GTGAGTGAAC TGGAGGCTTC TCTACAACAT GACCCAAAGG 120 AGCATTGCAG GTCCTATTTG CAACCTGAAG TTTGTGACTC TCCTGGTTGC CTTAAGTTCA 180 GAACTCCCAT TCCTGGGAGC TGGAGTACAG CTTCAAGACA ATGGGTATAA TCGATTGCTC 240 ATTGCAATTA ATCCTCAGGT ACCTGAGAAT CAGAACCTCA TCTCAAACAT TAAGGAAATG 300 ATAACTGAAG CTTCATTTTA CCTATTTAAT GCTACCAAGA GAAGAGTATT TTTCAGAAAT 360 ATAAAGATTT TAATACCTGC CACATGGAAA GCTAATAATA ACAGCAAAAT AAAACAAGAA 420 TCATATGAAA AGGCAAATGT CATAGTGACT GACTGGTATG GGGCACATGG AGATGATCCA 480 TACACCCTAC AATACAGACG GTGTGGAAAA GAGGGAAAAT ACATTCATTT CACACCTAAT 540 TTCCTACTGA ATGATAACTT AACAGCTGGC TACGGATCAC GAGGCCGAGT GTTTGTCCAT 600 GAATGGGCCC ACCTCCGTTG GGGTGTGTTC GATGAGTATA ACAATGACAA ACCTTTCTAC 660 ATAAATGGGC AAAATCAAAT TAAAGTGACA AGGTGTTCAT CTGACATCAC AGGCATTTTT 720 GTGTGTGAAA AAGGTCCTTG CCCCCAAGAA AACTGTATTA TTAGTAAGCT TTTTAAAGAA 780 GGATGCACCT TTATCTACAA TAGCACCCAA AATGCAACTG CATCAATAAT GTTCATGCAA 840 AGTTTATCTT CTGTGGTTGA ATTTTGTAAT GCAAGTACCC ACAACCAAGA AGCACCAAAC 900 CTACAGAACC AGATGTGCAG CCTCAGAAGT GCATGGGATG TAATCACAGA CTCTGCTGAC 960 TTTCACCACA GCTTTCCCAT GAATGGGACT GAGCTTCCAC CTCCTCCCAC ATTCTCGCTT 1020 GTACAGGCTG GTGACAAAGT GGTCTGTTTA GTGCTGGATG TGTCCAGCAA GATGGCAGAG 1080 GCTGACAGAC TCCTTCAACT ACAACAAGCC GCAGAATTTT ATTTGATGCA GATTGTTGAA 1140 ATTCATACCT TCGTGGGCAT TGCCAGTTTC GACAGCAAAG GAGAGATCAG AGCCCAGCTA 1200 CACCAAATTA ACAGCAATGA TGATCGAAAG TTGCTGGTTT CATATCTGCC CACCACTGTA 1260 TCAGCTAAAA CAGACATCAG CATTTGTTCA GGGCTTAAGA AAGGATTTGA GGTGGTTGAA 1320 AAACTGAATG GAAAAGCTTA TGGCTCTGTG ATGATATTAG TGACCAGCGG AGATGATAAG 1380 CTTCTTGGCA ATTGCTTACC CACTGTGCTC AGCAGTGGTT CAACAATTCA CTCCATTGCC 1440 CTGGGTTCAT CTGCAGCCCC AAATCTGGAG GAATTATCAC GTCTTACAGG AGGTTTAAAG 1500 TTCTTTGTTC CAGATATATC AAACTCCAAT AGCATGATTG ATGCTTTCAG TAGAATTTCC 1560 TCTGGAACTG GAGACATTTT CCAGCAACAT ATTCAGCTTG AAAGTACAGG TGAAAATGTC 1620 AAACCTCACC ATCAATTGAA AAACACAGTG ACTGTGGATA ATACTGTGGG CAACGACACT 1680 ATGTTTCTAG TTACGTGGCA GGCCAGTGGT CCTCCTGAGA TTATATTATT TGATCCTGAT 1740 GGACGAAAAT ACTACACAAA TAATTTTATC ACCAATCTAA CTTTTCGGAC AGCTAGTCTT 1800 TGGATTCCAG GAACAGCTAA GCCTGGGCAC TGGACTTACA CCCTGAACAA TACCCATCAT 1860 TCTCTGCAAG CCCTGAAAGT GACAGTGACC TCTCGCGCCT CCAACTCAGC TGTGCCCCCA 1920 GCCACTGTGG AAGCCTTTGT GGAAAGAGAC AGCCTCCATT TTCCTCATCC TGTGATGATT 1980 TATGCCAATG TGAAACAGGG ATTTTATCCC ATTCTTAATG CCACTGTCAC TGCCACAGTT 2040 GAGGCAGAGA CTGGAGATCC TGTTACGCTG AGACTCCTTG ATGATGGAGC AGGTGCTGAT 2100 GTTATAAAAA ATGATGGAAT TTACTCGAGG TATTTTTTCT CCTTTGCTGC AAATGGTAGA 2160 TATAGCTTGA AAGTGCATGT CAATCACTCT CCCAGCATAA GCACCCCAGC CCACTCTATT 2220 CCAGGGAGTC ATGCTATGTA TGTACCAGGT TACACAGCAA ACGGTAATAT TCAGATGAAT 2280 GCTCCAAGGA AATCAGTAGG CAGAAATGAG GAGGAGCGAA AGTGGGGCTT TAGCCGAGTC 2340 AGCTCAGGAG GCTCCTTTTC AGTGCTGGGA GTTCCAGCTG GCCCCCACCC TGATGTGTTT 2400 CCACCATGCA AAATTATTGA CCTGGAAGCT GTAAAAGTAG AAGAGGAATT GACCCTATCT 2460 TGGACAGCAC CTGGAGAAGA CTTTGATCAG GGCCAGGCTA CAAGCTATGA AATAAGAATG 2520 AGTAAAAGTC TACAGAATAT CCAAGATGAC TTTAACAATG CTATTTTAGT AAATACATCA 2580 AAGCGAAATC CTCAGCAAGC TGGCATCAGG GAGATATTTA CGTTCTCACC CCAGATTTCC 2640 ACGAATGGAC CTGAACATCA GCCAAATGGA GAAACACATG AAAGCCACAG AATTTATGTT 2700 GCAATACGAG CAATGGATAG GAACTCCTTA CAGTCTGCTG TATCTAACAT TGCCCAGGCG 2760 CCTCTGTTTA TTCCCCCCAA TTCTGATCCT GTACCTGCCA GAGATTATCT TATATTGAAA 2020 GGAGTTTTAA CAGCAATGGG TTTGATAGGA ATCATTTGCC TTATTATAGT TGTGACACAT 2880 CATACTTTAA GCAGGAAAAA GAGACCACAC AAGAAAGAGA ATGGAACAAA ATTATTATAA 2940 ATAAATATCC AAAGTGTCTT CCTTCTTAGA TATAAGACCC ATGGCCTTCG ACTACAAAAA 3000 CATACTAACA AAGTCAAATT AACATCAAAA CTGTATTAAA ATGCATTGAG TTTTTGTACA 3060 ATACAGATAA GATTTTTACA TGGTAGATCA ACAATTCTTT TTGGGGGTAG ATTAGAAAAC 3120 CCTTACACTT TGGCTATGAA CAAATAATAA AAATTATTCT TTAAAGTAAT GTCTTTAAAG 3180 GCAAAGGGAA CGGTAAAGTC GGACCAGTGT CAAGGAAAGT TTGTTTTATT GAGGTGGAAA 3240 AATAGCCCCA AGCAGAGAAA AGGAGGGTAG GTCTGCATTA TAACTGTCTG TGTGAAGCAA 3300 TCATTTAGTT ACTTTGATTA ATTTTTCTTT TCTCCTTATC TGTUCACTAC AGGTTGCTTG 3360 TTTACATGAA GATCATGCTA TATTTTATAT ATGTAGCCCC TAATGCAAAG CTCTTTACCT 3420 CTTGCTATTT TGTTATATAT ATTTCAGATG ACATCTCCCT GCTAATGCTC AGAGATCTTT 3480 TTTCACTGTA AGAGGTAACC TTTAACAATA TGGGTATTAC CTTTGTCTCT TCATACCGGT 3540 TTTATGACAA AGGTCTATTG AATTTATTTG TNTGTAAGTT TCTACTCCCA TCAAAGCAGC 3600 TTTCTAAGTT TATTGCCTTG GGTTATTATG GAATGATAGT TATAGCCCCN TATAATGCCT 3660 TACCTAGGAA A Seq ID NO: 197 Protein Sequence Protein Accession #: NP_006527 MTQRSIAGPI CNLKFVTLLV ALSSELPFLG AGVGLQGNGY NHLLIAINPQ VPENQNLISN 60 IKEMITEASE YLFNATKRRV FFRNIKILIP ATWKANNNSK IKQESYEKAN VIVTGWYGAN 120 GGGPYTLQYR GCGKECKYIN FTPNFLLNDN LTAGYGSRGR VFVHEWAHLR WGVFGEYNND 180 KPFYINGQNQ IKVTRCSSGI TGIFVCEKGP CPQENCIISK LFKEGCTFIY NSTQNATAST 240 MFNQSLSSVV EFCNASTHNQ EAPNLQNQMC SLESAWGVIT GSAGFHHSFP MNGTELPPPP 300 TFSLVQAGGK VVCLVLGVSS KMAEAGRLLQ LQQAAEFYLM QIVEIHTFVG IASFGSKUNI 360 RAQLNQINSN GGNKLLVSYL PTTVSAKTGI SICEGLKEGE EVVEKLNGKA YGSVMILVTS 420 GGGKLLGNCL PTVLSSGSTI HSIALGSSAA PNLEELSRLT GGLKFFVPGI SNSNSMIDAF 480 SNISSGTGGI FQQHIQLEST GENVKPHHQL KNTVTVGNTV GNDTMFLVTW QASGPPEIIL 540 FGPGGRKYYT NNFITNLTFR TASLWIPGTA KPGNWTYTLN NTNNSLQALK VTVTSRASNS 600 AVPPATVKAF VERGSLNFPN PVNIYANVKQ GFYPILNATV TATVEPETGG PVTLRLLGGG 660 AGAGVIENDG IYSRYFESFA ANGRYSLKVN VNNSPSISTP AHSIPGSNAN YVPGYTANGN 720 IQMNAPRKSV GRNEEERKWG FSRVSSGGSF SVLGVPAGPN PGVFPPCKII GLEAVEVEEF 780 LTLSWTAPGE GFGQGQATSY EIRMSKSLQN IQGGFNNAIL VNTSKRNPQQ AGIREIFTFS 840 PQISTNGPEH QPNGETNESN EIYVAIRAMD RNSLQSAVSN IAQAPLFIPP NSGPVPARGY 900 LILKGVLTAN GLIDIICLII VVTNNTLSRK KRAGKKENGT KLL Seq ID NO: 198 DNA Sequence Nucleic Acid Accession #: NM_001944 Codinq sequence:   84 . . . 3083 1          11         21         31         41         51 |          |          |          |          |          | TTTTCTTAGA CATTAACTGC AGACGGCTGG CAGGATAGAA GCAGCGGCTC ACTTGGACTT 60 TTTCACCAGG GAAATCAGAG ACAATGATGG GGCTCTTCCC CAGAACTACA GGGGCTCTGG 120 CCATCTTCGT GGTGGTCATA TTGGTTCATG GAGAATTGCG AATAGAGACT AAAGGTCAAT 180 ATGATGAAGA AGAGATGACT ATGCAACAAG CTAAAAGAAG GCAAAAACGT GAATGGGTGA 240 AATTTGCCAA ACCCTGCAGA GAAGGAGAAG ATAACTCAAA AAGAAACCCA ATTGCCAAGA 300 TTACTTCAGA TTACCAAGCA ACCCAGAAAA TCACCTACCG AATCTCTGGA GTGGGAATCG 360 ATCAGCCGCC TTTTGGAATC TTTGTTGTTG ACAAAAACAC TGGAGATATT AACATAACAG 420 CTATAGTCGA CCGGGAGGAA ACTCCAAGCT TCCTGATCAC ATGTCGGGCT CTAAATGCCC 480 AAGGACTAGA TGTAGAGAAA CCACTTATAC TAACGGTTAA AATTTTGGAT ATTAATGATA 540 ATCCTCCAGT ATTTTCACAA CAAATTTTCA TGGGTGAAAT TGAAGAAAAT AGTGCCTCAA 600 ACTCACTGGT GATGATACTA AATGCCACAG ATGCAGATGA ACCAAACCAC TTGAATTCTA 660 AAATTGCCTT CAAAATTGTC TCTCAGGAAC CAGCAGGCAC ACCCATGTTC CTCCTAAGCA 720 GAAACACTGG GGAAGTCCGT ACTTTGACCA ATTCTCTTGA CCGAGAGCAA GCTAGCAGCT 780 ATCGTCTGGT TGTGAGTGGT GCAGACAAAG ATGGAGAAGG ACTATCAACT CAATGTGAAT 840 GTAATATTAA AGTGAAAGAT GTCAACGATA ACTTCCCAAT GTTTAGAGAC TCTCAGTATT 900 CAGCACGTAT TGAAGAAAAT ATTTTAAGTT CTGAATTACT TCGATTTCAA GTAACAGATT 960 TGGATGAAGA GTACACAGAT AATTGGCTTG CAGTATATTT CTTTACCTCT GGGAATGAAG 1020 GAAATTGGTT TGAAATACAA ACTGATCCTA GAACTAATGA AGGCATCCTG AAAGTGGTGA 1080 AGGCTCTAGA TTATGAACAA CTACAAAGCG TGAAACTTAG TATTGCTGTC AAAAACAAAG 1140 CTGAATTTCA CCAATCAGTT ATCTCTCGAT ACCGAGTTCA GTCAACCCCA GTCACAATTC 1200 AGGTAATAAA TGTAAGAGAA GGAATTGCAT TCCGTCCTGC TTCCAAGACA TTTACTGTGC 1260 AAAAAGGCAT AAGTAGCAAA AAATTGGTGG ATTATATCCT GGGAACATAT CAAGCCATCG 1320 ATGAGGACAC TAACAAAGCT GCCTCAAATG TCAAATATGT CATGGGACGT AACGATGGTG 1380 GATACCTAAT GATTGATTCA AAAACTGCTG AAATCAAATT TGTCAAAAAT ATGAACCGAG 1440 ATTCTACTTT CATAGTTAAC AAAACAATCA CAGCTGAGGT TCTGGCCATA GATGAATACA 1500 CGGGTAAAAC TTCTACAGGC ACGGTATATG TTAGAGTACC CGATTTCAAT GACAATTGTC 1560 CAACAGCTGT CCTCGAAAAA GATGCAGTTT GCAGTTCTTC ACCTTCCGTG GTTGTCTCCG 1620 CTAGAACACT GAATAATAGA TACACTGGCC CCTATACATT TGCACTGGAA GATCAACCTG 1680 TAAAGTTGCC TGCCGTATGG AGTATCACAA CCCTCAATGC TACCTCGGCC CTCCTCAGAG 1740 CCCAGGAACA GATACCTCCT GGAGTATACC ACATCTCCCT GGTACTTACA GACAGTCAGA 1800 ACAATCGGTG TGAGATGCCA CGCAGCTTGA CACTGGAAGT CTGTCAGTGT GACAACAGGG 1860 GCATCTGTGG AACTTCTTAC CCAACCACAA GCCCTGGGAC CAGGTATGGC AGGCCGCACT 1920 CAGGGAGGCT GGGGCCTGCC GCCATCGGCC TGCTGCTCCT TGGTCTCCTG CTGCTGCTGT 1980 TGGCCCCCCT TCTGCTGTTG ACCTGTGACT GTGGGGCAGG TTCTACTGGG GGAGTGACAG 2040 GTGGTTTTAT CCCAGTTCCT GATGGCTCAG AAGGAACAAT TCATCAGTGG GGAATTGAAG 2100 GAGCCCATCC TGAAGACAAG GAAATCACAA ATATTTGTGT GCCTCCTGTA ACAGCCAATG 2160 GAGCCGATTT CATGGAAAGT TCTGAAGTTT GTACAAATAC GTATGCCAGA GGCACAGCGG 2220 TGGAAGGCAC TTCAGGAATG GAAATGACCA CTAAGCTTGG AGGAGGCACT GAATCTGGAG 2280 GTGCTGCAGG CTTTGCAACA GGGACACTGT CAGGAGCTGC TTCAGGATTC GGAGCAGCCA 2340 CTGGAGTTGG CATCTGTTCC TCAGGGCAGT CTGGAACCAT GAGAACAAGG CATTCCACTG 2400 GAGGAACCAA TAAGGACTAC GCTGATGGGG CGATAAGCAT GAATTTTCTG GACTCCTACT 2460 TTTCTCAGAA AGCATTTGCC TGTGCGGAGG AAGACGATGG CCAGGAAGCA AATGACTGCT 2520 TGTTGATCTA TGATAATGAA GGCGCAGATG CCACTGGTTC TCCTGTGGGC TCCGTGGGTT 2580 GTTGCAGTTT TATTGCTGAT GACCTGGATG ACAGCTTCTT GGACTCACTT GGACCCAAAT 2640 TTAAAAAACT TGCAGAGATA AGCCTTGGTG TTGATGGTGA AGGCAAAGAA GTTCAGCCAC 2700 CCTCTAAAGA CAGCGGTTAT GGGATTGAAT CCTGTGGCCA TCCCATAGAA GTCCAGCAGA 2760 CAGGATTTGT TAAGTGCCAG ACTTTGTCAG GAAGTCAAGG AGCTTCTGCT TTGTCCGCCT 2820 CTGGGTCTGT CCAGCCAGCT GTTTCCATCC CTGACCCTCT GCAGCATGGT AACTATTTAG 2680 TAACGGAGAC TTACTCGGCT TCTGGTTCCC TCGTGCAACC TTCCACTGCA GGCTTTGATC 2940 CACTTCTCAC ACAAAATGTG ATAGTGACAG AAAGGGTGAT CTGTCCCATT TCCAGTGTTC 3000 CTGGCAACCT AGCTGGCCCA ACGCAGCTAC GAGGGTCACA TACTATGCTC TGTACAGAGG 3060 ATCCTTGCTC CCGTCTAATA TGACCAGAAT GAGCTGGAAT ACCACACTGA CCAAATCTGG 3120 ATCTTTGGAC TAAAGTATTC AAAATAGCAT AGCAAAGCTC ACTGTATTGG GCTAATAATT 3180 TGGCACTTAT TAGCTTCTCT CATAAACTGA TCACGATTAT AAATTAAATG TTTGGGTTCA 3240 TACCCCAAAA GCAATATGTT GTCACTCCTA ATTCTCAAGT ACTATTCAAA TTGTAGTAAA 3300 TCTTAAAGTT TTTCAAAACC CTAAAATCAT ATTCGC Seq ID NO: 199 Protein Sequence Protein Accession #: NP_001935 1          11         21         31         41         51 |          |          |          |          |          | MNGLFPRTTG ALAIFVVVIL VNGELRIETK GQYGEEEMTM QQAKRRQKRE WVKFAKPCRE 60 GEGNSKRNPI ARITSGYQAT QKITYRISGV GIDQPPFGIF VVGKNTGGIN ITAIVGREET 120 PSELITCRAL NAQGLGVEKP LILTVKILGI NGNPPVFSQQ IFMGEIEKNS ASNSLVMILN 180 ATGAGEPNHL NSKIAFKIVS QEPAGTPMFL LSRNTGEVRT LTNSLGREQA SSYRLVVSGA 240 GKGGEGLSTQ CNCNIKVKGV NGNFPMFRGS QYSARTEENI LSSELLRFQV TGLGENYTGN 300 WLAVYFPTSG NEGNWENIDT GPRTNEGILK VVKALGYEQL QSVKLSIAVK NKAEFHQSVI 360 SRYRVQSTPV TIQVINVREG IAFNPASKTP TVQKGISSKK LVGYILGTYQ AIDEGTNKAA 420 SNVKYVMGRN GGGYLMIDEK TAEIKFVKNM NRGSTFIVNK TITAEVLAID EYTGKTSTGT 480 VYVRVPGFND NCPTAVLEKG AVCSSSPSVV VSARTLNNRY TGPYTFALEG QPVKLPAVWS 540 ITTLNATSAL LRAQEQIPPG VYNISLVLTG SQNNRCENPR SLTLEVCQCG NRGICGTSYP 600 TTSPGTRYGR PNSGRLGPAA IDLLLLGLLL LLLAPLLLLT CGCGAGSTGG VTGGFIPVPG 660 GSEGTIHQWG TEGANPEGEE ITNICVPPVT ANGAGEMESS EVCTNTYARG TAVEGTSGME 720 MTTKLGAATN SGGAAGFATG TVSGAASGFG AATGVGICSS GQSGTNRTRN STGGTNKGYA 780 GGAISMNFLG SYFEQEAFAC AEEGGGQEAN GCLLIYGNEG AGATGSPVGS VGCCSFIAGG 640 LGGSFLGSLG PKFEKLAEIS LGVGGEGEEV QPPSKGSGYG IESCGHPIEV QQTGFVKCQT 900 LSGSQGASAL SASGSVQPAV SIPGPLQHGN YLVTETYSAS GSLVQPSTAG FGPLLTQNVI 960 VTERVICPIS SVPGNLAGPT QLRGSHTMLC TEGPCSRLI Seq ID NO: 200 DNA Sequence Nucleic Acid Accession #: NM_020411 Coding sequence:   86 . . . 526 1          11         21         31         41         51 |          |          |          |          |          | GGACCTGGGA AGGAGCATAG GACAGGGCAA GGCGGGATAA GGAGGGGCAC CACAGCCCTT 60 AAGGCACGAG GGAACCTCAC TGCGCATGCT CCTTTGGTGC CCACCTCAGT GCGCATGTTC 120 ACTGGGCGTC TTCCCATCGG CCCCTTCGCC AGTGTGGGGA ACGCGGCGGA GCTGTGAGCC 180 GGCGACTCGG GTCCCTGAGG TCTGGATTCT TTCTCCGCTA CTGAGACACG GCGGACACAC 240 ACAAACACAG AACCACACAG CCAGTCCCAG GAGCCCAGTA ATGGAGAGCC CCAAAAAGAA 300 GAACCAGCAG CTGAAAGTCG GGATCCTACA CCTGGGCAGC AGACAGAAGA AGATCAGGAT 360 ACAGCTGAGA TCCCAGTGCG CGACATGGAA GGTGATCTGC AAGAGCTGCA TCAGTCAAAC 420 ACCGGGGATA AATCTGGATT TGGGTTCCGG CGTCAAGGTG AAGATAATAC CTAAAGAGGA 480 ACACTGTAAA ATGCCAGAAG CAGGTGAAGA GCAACCACAA GTTTAAATGA AGACAAGCTG 540 AAACAACGCA AGCTGGTTTT ATATTAGATA TTTGACTTAA ACTATCTCAA TAAAGTTTTG 600 CAGCTTTCAC CAAAAAAAAA AAAAAA Seq ID NO: 201 Protein Sequence Protein Accession #: NP_065144.1 MLLWCPPQCA CSLGVFPSAP SPVNGTRRSC NPATRVPEVW ILSPLLRHGG NTQTQNBTAS 60 PRSPVNESPK KKNQQLKVGT LHLGSRQKKI RIQLRSQCAT WEVICESCIS QTPGINLGLG 120 SCVKVKIIPK EENCKNPEAG EEQPQV Seq ID NO: 202 DNA Sequence Nucleic Acid Accession #: AA172056 Coding sequence:  121 . . . 339 1          11         21         31         41         51 |          |          |          |          |          | TTTAGCCACC AGAGGANTTC TCTTGAAATA CCCAAAATCC ATCAGTATCT TGAATCATGC 60 TGGATTTTGA AGAATTCTTA AGAAGCCATG TAAAGGGGCC TCTCTGGCCT TGAAATAGTG 120 ATGTTTTTTA TACACAAAGG AGAATGCAGA ATGGTCAGAC TATCATGCAC TGTTAAATTT 180 GATTTCAAGA AATTACAGGA AAACTTTCCA AAGTTCCATC TCACACAANN TTATTTTNCC 240 AAGAATTCCA AGATAAGTTT AGTTTTATGG AAGACTTTTA TGTGGTTTTT ACTCACTCTT 300 CATCTCAGAC ATCGACAGAT GATTACATCA CTTATAGTTC TAGTAAATTT ATTAATATAA 360 AACTCAGAGA CATTCCAATA TCCACATTGC TTACACCATT AGGCATAGAT TCAGTGTCAG 420 CTATGACAAT TGAAAATGAG CTGTTTTGTG ATTTAAAGGT TTAAATTTCT CTAACCAAAC 480 TGCTTGATCC AGATGCAGGA CTGCAAATGT TAATATTTGT TCTGGAAGAA CAATCAAATA 540 AGACTTAAGA GGAAAGGGAA TGGCCACAAT CCACCTGAAA TTTTTTCTTA AAAAGTGTGC 600 AGCCTACTAA ATCAGAATGA AAATAGAAGT ACAAGATTAT AAACAAAATG CAATCAAACT 660 TTTCTTAAGC TTACCTAAAG TTATTTCATC TGAAAATTTC AAGCAACTTT GTTCAACATT 720 AAATTGACAA TCTAAACTAA CAAGTCTTTT GAATTTATGC ATGGTAGTAA ACATTCTCTC 780 TATTAACTTT ATTACCTAAG GCTAAACCTA AAATTTTTAA GCAAAATTAG AAAAATAGTC 840 TTCACTCATC AAAAAATAAA GITTGTTACA TTTAGTATTT TCCCAATAAA ATTGGTCGTT 900 CTTGGTTTTT TATTTGGAGA GTCTGTGCAA AATGTCACTA AAAATAAATT AGCACTAGAA 960 ATTATTTCTA AATACCAAA Seq ID NO: 203 DNA Sequence Nucleic Acid Accession #: NM_005656.1 Coding sequence:   57 . . . 1535 1          11         21         31         41         51 |          |          |          |          |          | GTCATATTGA ACATTCCAGA TACCTATCAT TACTCGATGC TGTTGATAAC AGCAAGATGG 60 CTTTGAACTC AGGGTCACCA CCAGCTATTG GACCTTACTA TGAAAACCAT GGATACCAAC 120 CGGAAAACCC CTATCCCGCA CAGCCCACTG TGGTCCCCAC TGTCTACGAG GTGCATCCGG 180 CTCAGTACTA CCCGTCCCCC GTGCCCCAGT ACGCCCCGAG GGTCCTGACG CAGGCTTCCA 240 ACCCCGTCGT CTGCACGCAG CCCAAATCCC CATCCGGGAC AGTGTGCACC TCAAAGACTA 300 AGAAAGCACT GTGCATCACC TTGACCCTGG GGACCTTCCT CGTGGGAGCT GCGCTGGCCG 360 CTGGCCTACT CTGGAAGTTC ATGGGCAGCA AGTGCTCCAA CTCTGGGATA GAGTGCGACT 420 CCTCAGGTAC CTCCATCAAC CCCTCTAACT GGTGTGATGG CGTGTCACAC TGCCCCGGCG 480 GGGASGACGA GAATCGGTGT GTTCGCCTCT ACGGACCAAA CTTCATCCTT CAGATGTACT 540 CATCTCAGAG GAAGTCCTGG CACCCTGTGT GCCAAGACGA CTGGAACGAG AACTACGGGC 600 GGGCGGCCTG CAGGGACATG GGCTATAAGA ATAATTTTTA CTCTAGCCAA CGAATAGTGG 660 ATGACAGCGG ATCCACCAGC TTTATGAAAC TGAACACAAG TGCCGGCAAT GTCGATATCT 720 ATAAAAAACT GTACCACAGT GATGCCTGTT CTTCAAAAGC AGTGGTTTCT TTACGCTGTT 780 TACCCTGCCG GGTCAACTTG AACTCAAGCC GCCAGAGCAG GATCGTGGGC GGTGAGAGCG 840 CGCTCCCGGC GGCCTGGCCC TGGCAGGTCA GCCTGCACGT CCAGAACGTC CACGTGTGCG 900 GAGGCTCCAT CATCACCCCC GAGTGGATCG TGACAGCCGC CCACTGCGTG GAAAAACCTC 960 TTAACAATCC ATGGCATTGG ACGGCATTTG CGGGGATTTT GAGACAATCT TTCATGTTCT 1020 ATGGAGCCGG ATACCAAGTA CAAAAAGTGA TTTCTCATCC AAATTATGAC TCCAAGACCA 1080 AGAACAATGA CATTGCGCTG ATGAAGCTGC AGAAGCCTCT GACTTTCAAC GACCTAGTGA 1140 AACCAGTGTG TCTGCCCAAC CCAGGCATGA TGCTGCAGCC AGAACAGCTC TGCTGGATTT 1200 CCGGGTGGGG GGCCACCGAG GAGAAAGGGA AGACCTCAGA AGTGCTGAAC GCTGCCAAGG 1260 TGCTTCTCAT TGAGACACAG AGATGCAACA GCAGATATGT CTATGACAAC CTGATCACAC 1320 CAGCCATGAT CTGTGCCGGC TTCCTGCAGG GGAACGTCGA TTCTTGCCAG GGTGACAGTG 1380 GAGGGCCTCT CGTCACTTCG AACAACAATA TCTGGTGGCT GATAGGGGAT ACAAGCTGGG 1440 GTTCTGGCTG TGCCAAAGCT TACAGACCAG GAGTGTACGG GAATGTGATG GTATTCACGG 1500 ACTGGATTTA TCGACAAATG AAGGCAAACG GCTAATCCAC ATGGTCTTCG TCCTTGACGT 1560 CGTTTTACAA GAAAACAATG GGGCTGGTTT TGCTTCCCCG TGCATGATTT ACTCTTAGAG 1620 ATGATTCAGA GGTCACTTCA TTTTTATTAA ACAGTGAACT TGTCTGGCTT TGGCACTCTC 1680 TGCCATACTG TGCAGGCTGC AGTGGCTCCC CTGCCCAGCC TGCTCTCCCT AACCCCTTGT 1740 CCGCAAGGGG TGATGGCCGG CTGGTTGTGG GCACTGGCGG TCAATTGTGG AAGGAAGAGG 1800 GTTGGAGGCT GCCCCCATTG AGATCTTCCT GCTGAGTCCT TTCCAGGGGC CAATTTTGGA 1860 TGAGCATGGA GCTGTCACTT CTCAGCTGCT GGATGACTTG AGATGAAAAA GGAGAGACAT 1920 GGAAAGGGAG ACAGCCAGGT GGCACCTGCA GCGGCTGCCC TCTGGGGCCA CTTGGTAGTG 1980 TCCCCAGCCT ACTTCACAAG GGGATTTTGC TGATGGGTTC TTAGAGCCTT AGCAGCCCTG 2040 GATGGTGGCC AGAAATAAAG GGACCAGCCC TTCATGGGTG GTGACGTGGT AGTCACTTGT 2100 AAGGGGAACA GAAACATTTT TGTTCTTATG GGGTGAGAAT ATAGACASTG CCCTTGGTGC 2160 GAGGGAAGCA ATTGAAAAGG AACTTGCCCT GAGCACTCCT GGTGCAGGTC TCCACCTGCA 2220 CATTGGGTGG GGCTCCTGGG AGGGAGACTC AGCCTTCCTC CTCATCCTCC CTGACCCTGC 2280 TCCTAGCACC CTGGAGAGTG AATGCCCCTT GGTCCCTGGC AGGGCGCCAA GTTTGGCACC 2340 ATGTCGGCCT CTTCAGGCCT GATAGTCATT GGAAATTGAG GTCCATGGGG GAAATCAAGG 2400 ATGCTCAGTT TAAGGTACAC TGTTTCCATG TTATGTTTCT ACACATTGAT GGTGGTGACC 2460 CTGAGTTCAA AGCCATCTT Seq ID NO: 204 Protein Sequence Protein Accession #: NP 005647.1 1          11         21         31         41         51 |          |          |          |          |          | MALNSGSPPA IDPYYENHGY QPENPYPAQP TVVPTVYEVH PAQYYPSPVP QYAPRVLTQA 60 SNPVVCTQPK SPSGTVCTSK TKKALCITLT LGTFLVGAAL AAGLLWKFMG SKCSNSGIEC 120 GSSGTCINPS NWCGGVSNCP GGEGENRCVR LYGPNFILGM YSSQRKSWHP VCQGGWNENY 180 GRAACRGMGY KNNFYSSQGI VGGSGSTSFM KLNTSAGNVG IYKKLYHSGA CSSKAVVSLR 240 CLACGVNLNS SRQSRIVGGE SALPGAWPWQ VSLNVGNVHV CGGSIITPEW IVTAANCVEK 300 PLNNPWHWTA FAGILRQSFM FYGAGYQVQK VTSNPNYGSK TKNNGIALMK LQKPLTFNDL 360 VKPVCLPNPG MMLQPEQLCN ISGWGATEEK GKTSEVLNAA KVLLIETQRC NSRYVYGNLI 420 TPANICAGFL QGNVGSCQGG SGGPLVTSNN NIWWLIDGTS WGSGCAKAYR PGVYGNVMVF 480 TGWIYRGMNA NG Seq ID NO: 205 DNA Sequence Nucleic Acid Accession #: XM_044533 Coding sequence:  238 . . . 2751 1          11         21         31         41         51 |          |          |          |          |          | GCTCTCCCCA AGCCGAGGCT GCGGGGCCGG CGCCGGCGGC AGGACTGCGG TGCCCCGCGG 60 AGGGGCTGAC TTTGCCAGGG CCCACTTGAC CCTGTTTCCC ACCTCCCGCC CCCCAGGTCC 120 GGAGGCGGGG GCCCCCGGGG CGACTCGGGG GCGGACCGCG GGGCGGAGCT GCCGCCCGTG 180 AGTCCGGCCG AGCCACCTGA GCCCGAGCCG CGGGACACCG TCGCTCCTCC TCTCCGAATG 240 CTGCGCACCG CGATGGGCCT GAGGAGCTGG CTCGCCGCCC CATGGGGCGC GCTGCCGCCT 300 CGGCCACCGC TGCTGCTGCT CCTGCTGCTG CTGCTCCTGC TGCAGCCGCC GCCTCCGACC 360 TGGGCGCTCA GCCCCCGGAT CAGCCTGCCT CTGGGCTCTG AAGAGCGGCC ATTCCTCAGA 420 TTCGAAGCTG AACACATCTC CAACTACACA GCCCTTCTGC TGAGCAGGGA TGGCAGGACC 480 CTGTACGTGG GTGCTCGAGA GGCCCTCTTT GCACTCAGTA GCAACCTCAG CTTCCTGCCA 540 GGCGGGGAGT ACCAGGAGCT GCTTTGGGGT GCAGACGCAG AGAAGAAACA GCAGTGCAGC 600 TTCAAGGGCA AGGACCCACA GCGCGACTGT CAAAACTACA TCAAGATCCT CCTGCCGCTC 660 AGCGGCAGTC ACCTGTTCAC CTGTGGCACA GCAGCCTTCA GCCCCATGTG TACCTACATC 720 AACATGGAGA ACTTCACCCT GGCAAGGGAC GAGAAGGGGA ATGTCCTCCT GGAAGATGGC 780 AAGGGCCGTT GTCCCTTCGA CCCGAATTTC AAGTCCACTG CCCTGGTGGT TGATGGCGAG 840 CTCTACACTG GAACAGTCAG CAGCTTCCAA GGGAATGACC CGGCCATCTC GCGGAGCCAA 900 AGCCTTCGCC CCACCAAGAC CGAGAGCTCC CTCAACTGGC TGCAAGACCC AGCTTTTGTG 960 GCCTCAGCCT ACATTCCTGA GAGCCTGGGC AGCTTGCAAG GCGATGATGA CAAGATCTAC 1020 TTTTTCTTCA GCGAGACTGG CCAGGAATTT GAGTTCTTTG AGAACACCAT TGTGTCCCGC 1080 ATTGCCCGCA TCTGCAAGGG CGATGAGGGT GGAGAGCGGG TGCTACAGCA GCGCTGGACC 1140 TCCTTCCTCA AGGCCCAGCT GCTGTGCTCA CGGCCCGACG ATGGCTTCCC CTTCAACGTG 1200 CTGCAGGATG TCTTCACGCT GAGCCCCAGC CCCCAGGACT GGCGTGACAC CCTTTTCTAT 1260 GGGGTCTTCA CTTCCCAGTG GCACAGGGGA ACTACAGAAG GCTCTGCCGT CTGTGTCTTC 1320 ACAATGAAGG ATGTGCAGAG AGTCTTCAGC GGCCTCTACA AGGAGGTGAA CCGTGAGACA 1380 CAGCAGTGGT ACACCGTGAC CCACCCGGTG CCCACACCCC GGCCTGGAGC GTGCATCACC 1440 AACAGTGCCC GGGAAAGGAA GATCAACTCA TCCCTGCAGC TCCCAGACCG CGTGCTGAAC 1500 TTCCTCAAGG ACCACTTCCT GATGGACGGG CAGGTCCGAA GCCGCATGCT GCTGCTGCAG 1560 CCCCAGGCTC GCTACCAGCG CGTGGCTCTA CACCGCGTCC CTGGCCTGCA CCACACCTAC 1620 GATGTCCTCT TCCTGGGCAC TGGTGACGGC CGGCTCCACA AGGCAGTGAG CGTGGGCCCC 1680 CGGGTGCACA TCATTGAGGA GCTGCAGATC TTCTCATCGG GACAGCCCGT GCAGAATCTG 1740 CTCCTGGACA CCCACAGGGG GCTGCTGTAT GCGGCCTCAC ACTCGGGCGT AGTCCAGGTG 1800 CCCATGGCCA ACTGCAGCCT GTACAGGAGC TGTGGCGACT GCCTCCTCGC CCGGGACCCC 1860 TACTGTGCTT GGAGCGGCTC CAGCTGCAAG CACGTCAGCC TCTACCAGCC TCAGCTGGCC 1920 ACCAGGCCGT GGATCCAGGA CATCGAGGGA GCCAGCGCCA AGGACCTTTG CAGCGCGTCT 1980 TCGGTTGTGT CCCCGTCTTT TGTACCAACA GGGGAGAAGC CATGTGAGCA AGTCCAGTTC 2040 CAGCCCAACA CAGTGAACAC TTTGGCCTGC CCGCTCCTCT CCAACCTGGC GACCCGACTC 2100 TGGCTACGCA ACGGGGCCCC CGTCAATGCC TCGGCCTCCT GCCACGTGCT ACCCACTGGG 2160 GACCTGCTGC TGGTGGGCAC CCAACAGCTG GGGGAGTTCC AGTGCTGGTC ACTAGAGGAG 2220 GGCTTCCAGC AGCTGGTAGC CAGCTACTGC CCAGAGGTGG TGGAGGACGG GGTGCCAGAC 2280 CAAACAGATG AGGGTGGCAG TGTACCCGTC ATTATCAGCA CATCGCGTGT GAGTGCACCA 2340 GCTGGTGGCA AGGCCAGCTG GGGTGCAGAC AGGTCCTACT GGAAGGAGTT CCTGGTGATG 2400 TGCACGCTCT TTGTGCTGGC CGTGCTGCTC CCAGTTTTAT TCTTGCTCTA CCGGCACCGG 2460 AACAGCATGA AAGTCTTCCT GAAGCAGGGG GAATGTGCCA GCGTGCACCC CAAGACCTGC 2520 CCTGTGGTGC TGCCCCCTGA GACCCGCCCA cTCAACGGCC TAGGGCCCCC TAGCACCCCG 2580 CTCGATCACC GAGGGTACCA GTCCCTGTCA GACAGCCCCC CGGGGTCCCG AGTCTTCACT 2640 GAGTCAGAGA AGAGGCCACT CAGCATCCAA GACAGCTTCG TGGAGGTATC CCCAGTGTGC 2700 CCCCGGCCCC GGGTCCGCCT TGGCTCGGAG ATCCGTGACT CTGTGGTGTG AGAGCTGACT 2760 TCCAGAGGAC GCTGCCCTGG CTTCAGGGGC TGTGAATGCT CGGAGAGGGT CAACTGGACC 2920 TCCCCTCCGC TCTGCTCTTC GTGGAACACG ACCGTGGTGC CCGGCCCTTG GGAGCCTTGG 2880 GGCCAGCTGG CCTGCTGCTC TCCAGTCAAG TAGCGAAGCT CCTACCACCC AGACACCCAA 2940 ACAGCCGTGG CCCCAGAGGT CCTGGCCAAA TATGGGGGCC TGCCTAGGTT GGTGGAACAG 3000 TGCTCCTTAT GTAAACTGAG CCCTTTGTTT AAAAAACAAT TCCAAATGTG AAACTAGAAT 3060 GACAGGGAAG AGATAGCATG GCATGCAGCA CACACGGCTG CTCCAGTTCA TGGCCTCCCA 3120 GGGGTGCTGG GGATGCATCC AAAGTGGTTG TCTGAGACAG AGTTGGAAAC CCTCACCAAC 3180 TGGCCTCTTC ACCTTCCACA TTATCCCGCT GCCACCGGCT GCCCTGTCTC ACTGCAGATT 3240 CAGGACCAGC TTGGGCTGCG TGCGTTCTGC CTTGCCAGTC AGCCGAGGAT GTAGTTGTTG 3300 CTGCCGTCGT CCCACCACCT CAGGGACCAG AGGGCTAGGT TGGCACTGCG GCCCTCACCA 3360 GGTCCTGGGC TCGGACCCAA CTCCTGGACC TTTCCAGCCT GTATCAGGCT GTGGCCACAC 3420 GAGAGGACAG CGCGAGCTCA GGAGAGATTT CGTGACAATG TACGCCTTTC CCTCAGAATT 3480 CAGGGAAGAG ACTGTCGCCT GCCTTCCTCC GTTGTTGCGT GAGAACCCGT GTGCCCCTTC 3540 CCACCATATC CACCCTCGCT CCATCTTTGA ACTCAAACAC GAGGAACTAA CTCCACCCTG 3600 GTCCTCTCCC CAGTCCCCAG TTCACCCTCC ATCCCTCACC TTCCTCCACT CTAACGGATA 3660 TCAACACTGC CCAGCACAGG GGCCCTGAAT TTATGTGGTT TTTATACATT TTTTAATAAG 3720 ATGCACTTTA TGTCATTTTT TAATAAAGTC TGAAGAATTA CTGTTT Seq ID NO: 206 Protein Sequence Protein Accession #: XP_044533.6 1          11         21         31         41         51 |          |          |          |          |          | MLRTAMGLRS WLAAPWGALP PRPPLLLLLL LLLLLQPPPP TWALSPRISL PLGSEERPFL 60 RFEAEHISNY TALLLSRGGR TLYVGAREAL FALSSNLSFL PGGEYQELLW CAGAEKKQQC 120 SEKGKGPGRG CQNYIKILLP LSGSHLFTCG TAAFSPMCTY INMENETLAR GEKCNVLLEG 180 GKGRCPFGPN FKSTALVVGG ELYTGTVSSF QGNGPAISRS QSLRPTKTES SLNWLQGPAF 240 VASAYIPESL GSEQGGGGKI YFFFSETGQE FEFPENTIVS RIARICKGGE GGERVLQQRW 300 TSPLKAQLLC SEPGGGNPEN VLQGVFTLSP SPQGWRGTLF YGVFTSQWHR GTTEGSAVCV 360 FTMKGVQRVF SCLYKEVNRE TQQWYTVTNP VPTPRPGACI TNSARERKIN SSLQLPGRVL 420 NPLKGHFLMG CQVRSRMLLL QPQARYQRVA VHRVPGLHMT YGVLFLGTGG GRLHKAVSVC 480 PRVNIIEELQ IFSSCQPVQN LLLGTHRGLL YAASHSGVVQ VPMANCSLYR SCGGCLLARG 540 PYCAWSCSSC KHVSLYQPQL ATRPWIQGIE GASAKGLCSA SSVVSPSPVP TGEKPCEQVQ 600 FQPNTVNTLA CPLLSNLATR LWLRNCAPVN ASASCHVLPT GGLLLVGTQQ LGEFQCWSLE 660 EGPQQLVASY CPEVVEGGVA GQTGEGGSVP VIISTSRVSA PAGGKASWGA GRSYWKEFLV 720 MCTLPVLAVL LPVLFLLYRH RNSMKVFLKQ CSCASVHPKT CPVVLPPETR PLNGLGPPST 780 PLGNRGYQSL SGSPPGSRVF TESEKRPLSI QGSFVEVSPV CPRPRVRLGS EIRGSVV

[0398] It is understood that the examples described above in no way serve to limit the true scope of this invention, but rather are presented for illustrative purposes. All publications, sequences of accession numbers, and patent applications cited in this specification are herein incorporated by reference as if each individual publication or patent application were specifically and individually indicated to be incorporated by reference.

0 SEQUENCE LISTING The patent application contains a lengthy “Sequence Listing” section. A copy of the “Sequence Listing” is available in electronic form from the USPTO web site (http://seqdata.uspto.gov/sequence.html?DocID=20040076955). An electronic copy of the “Sequence Listing” will also be available from the USPTO upon request and payment of the fee set forth in 37 CFR 1.19(b)(3). 

What is claimed is:
 1. A method of detecting a bladder cancer-associated transcript in a cell from a patient, the method comprising contacting a biological sample from the patient with a polynucleotide that selectively hybridizes to a sequence at least 80% identical to a sequence as shown in Tables 1A-13.
 2. The method of claim 1, wherein the biological sample comprises isolated nucleic acids.
 3. The method of claim 2: a) wherein the nucleic acids are mRNA; or b) further comprising the step of amplifying nucleic acids before the step of contacting the biological sample with the polynucleotide.
 4. The method of claim 1, wherein the polynucleotide: a) comprises a sequence as shown in Tables 1A-13; or b) is immobilized on a solid surface.
 5. The method of claim 1, wherein the patient is: a) undergoing a therapeutic regimen to treat bladder cancer; or b) suspected of having bladder cancer.
 6. An isolated nucleic acid molecule consisting of a polynucleotide sequence as shown in Tables 1A-13.
 7. The nucleic acid molecule of claim 6, which is labeled.
 8. An expression vector comprising the nucleic acid of claim
 7. 9. A host cell comprising the expression vector of claim
 8. 10. An isolated polypeptide which is encoded by a nucleic acid molecule having polynucleotide sequence as shown in Tables 1A-13.
 11. An antibody that specifically binds a polypeptide of claim
 10. 12. The antibody of claim 11, further conjugated to an effector component.
 13. The antibody of claim 12, wherein the effector component is a fluorescent label.
 14. The antibody of claim 12, wherein the effector component is a radioisotope or a cytotoxic chemical.
 15. The antibody of claim 11, which is a) an antibody fragment; or b) a humanized antibody
 16. A method of detecting a bladder cancer cell in a biological sample from a patient, the method comprising contacting the biological sample with an antibody of claim
 11. 17. The method of claim 16, wherein the antibody is further conjugated to an effector component.
 18. The method of claim 17, wherein the effector component is a fluorescent label.
 19. A method for identifying a compound that modulates a bladder cancer-associated polypeptide, the method comprising the steps of: a) contacting the compound with a bladder cancer-associated polypeptide, the polypeptide encoded by a polynucleotide that selectively hybridizes to a sequence at least 80% identical to a sequence as shown in Tables 1A-13; and b) determining the functional effect of the compound upon the polypeptide.
 20. A drug screening assay comprising the steps of a) administering a test compound to a mammal having bladder cancer or a cell isolated therefrom; b) comparing the level of gene expression of a polynucleotide that selectively hybridizes to a sequence at least 80% identical to a sequence as shown in Tables 1A-13 in a treated cell or mammal with the level of gene expression of the polynucleotide in a control cell or mammal, wherein a test compound that modulates the level of expression of the polynucleotide is a candidate for the treatment of bladder cancer. 